Method and apparatus for displaying raster data of colour image on display surface consisting of display surface areas of three types, and method and apparatus for displaying raster data of colour image

FIELD: information technology.

SUBSTANCE: to bring separate single-pixel indicators and separate logic pixels into conformity, a control table is used, which determines the order of displaying image data on the screen of a display device. One single-pixel indicator and one logic pixel correspond to an arbitrary element of the control table. An indicator of a defined colour is activated to generate light flux according to data of the same colour selected from the logic pixel. Selection of these data from the logic pixel and activation of that single-pixel indicator are repeated at high speed. The order of arrangement on the image data plane of geometric centres of non-overlapping or partially overlapping groups from the plurality of logic pixels coincides with the order of arrangement on the surface of the screen of the display device of conditional geometric centres of non-overlapping groups from the plurality of single-pixel indicators, which (groups from a plurality of single-pixel indicators) correspond to those groups from the plurality of logic pixels. Each group from the plurality of logic pixels mutually explicitly corresponds to a group from the plurality of single-pixel indicators. To increase brightness of the image displayed on the screen of the display device, that screen contains white-colour single-pixel indicators which are activated to generate light flux according to data calculated based on data contained in logic pixels which correspond to those white-colour single-pixel indicators.

EFFECT: broader functional capabilities, particularly display of raster data of a colour image on the screen of a display device, higher brightness of the image displayed on that screen.

16 cl, 21 dwg

 

The technical field to which the invention relates.

The claimed invention relates to methods and devices for the visual representation of raster data of the color image on the screen formed by a number of coloured light-emitting or light modulating pixel of indicators arranged in a regular combination, and can be applied in a full-color visual display devices.

The level of technology

To date, in various fields of knowledge has accumulated a number of information that can be used in the design of devices designed for data representing a color image on a matrix or mosaic screen. Some of this information obtained from studies of the structure and functioning of the visual system of the person, can be formulated as follows:

the angular resolution limit of the color channel of the visual system of the person and the angular resolution limit of the black-white channel of the visual system of the person depend on the ratio of the brightness of the individual image elements projected on parafoveal region of the retina of the human eye;

as the values of the angular resolution limit of the color channel of the visual system of the person and the values of the angular limit of resolution black-and-b is the logo of the channel of the visual system of the person, obtained when projecting on parafoveal region of the retina of the human eye to different areas of one image may be different from each other;

for any area of the image projected on parafoveal region of the retina of the human eye, the angular resolution limit of the color channel of the visual system of the person is more angular limit of resolution black-and-white channel of the visual system of the person (the sharpness of the black and white view of the person above acuity color vision person);

projected on parafoveal region of the retina of the human eye evenly colored single object whose color is different from the background color, and the angular size of which is less than the angular resolution limit of the color channel of the visual system of the person, but more angular limit of resolution black-and-white channel of the visual system of the person, the person is perceived painted in a shade of the background color;

a human-perceivable amount of information contained in the image, can reach the maximum value, if the angular size of each of the components of the image elements projected on parafoveal region of the retina of the human eye, will coincide with the angular resolution limit of the black-white channel of the visual system of the person and if some of the elements this is the first image will be white, and the other black.

In the prior art it is known that a color image can be specified by a set of logical pixels forming a two-dimensional array. Each logical pixel of the color image data include the first, second and third groups, characterizing the three-dimensional color space, the three normalized color coordinates respectively conditionally "first"conditionally "second" and conditionally "third" linearly independent colors. Surface visualization, designed to represent her data of a color image can be formed by a large number located in a predefined order one of the indicators of the first, second and third groups, each of which can be used to generate directional from this pixel indicator light flux respectively conditional first conditional second or conditionally "third" color according to respectively the first, second or third group contained in logical pixels of this color image. Each pixel indicator of the first, second or third group forms on the surface rendering surface rendering, respectively, the first, second or third group. Pixel indicators can form a two-dimensional matrix is (with matrix screen), mosaic structure consisting of a set of triads, each of which is formed one pixel LEDs located at the vertices of an isosceles triangle (mosaic screen), or another structure.

Surface rendering is divided into many areas, surface rendering, each of which may include one or more adjacent areas of the surface rendering. Each region of the surface visualization corresponds to a display element, comprising a set of pixel indicators that form the surface of the visualization included in this region of the surface rendering.

In the process of submitting data to the color image on the surface visualization, formed by a large number of pixel of the indicators of the first, second and third groups, the first of many pixel indicators can be divided into many display elements, and then a set of logical pixels of this color image can be one-to-one mapped to a variety of display elements forming this surface rendering.

In order for data to the color image can be presented on the surface of the imaging lossless, enough indication elements forming this surface visualization, clicks sofyali two-dimensional matrix, moreover, the number of rows and number of columns of this two-dimensional matrix must be greater than or equal to respectively the number of rows and number of columns of the two-dimensional array of logical pixels of this color image, and each element of the display should include one or more pixel indicators of the first group, one or more single-pixel of the second group of indicators, and one or more pixel indicators of the third group.

If picture color size greater than the size of a two-dimensional matrix formed by the pixel indicators forming surface visualization, data (conditionally "source") color image may not be provided on this surface visualization without losses. However, this original image can be transformed into another (relatively "small") color image, the size of which does not exceed the amount of surface rendering. Resulting from this conversion many logical pixels "small" color image can be one-to-one mapped to a variety of display elements forming this surface visualization. Converting the original color image in a reduced color image can be performed in different ways.

Data from engrenage" color image can be calculated, for example, the result of averaging data original color image. For averaging data "source" of the color image a two-dimensional array formed by a logical pixels of the original color image may first be divided into multiple overlapping or non-overlapping data regions. Moreover, arbitrary (considered as a random element of the set), the data region may be a square matrix and include one or more logical pixels of the original color image, located next to each other in this two-dimensional array of logical pixels, and some logical pixels of the original color image may not be included in any one of the data regions. And then for each of these data fields can be computed average values of the data of the first, second and third groups. The calculated data of the first, second and third groups can be taken as data, respectively, the first, second and third groups contained in one-to-one corresponding data fields of the logical pixels "small" color image.

Averaging of the data contained in logical pixels of the original color image can also be performed directly in the process presented the program "data source" to the color image on the surface of the imaging formed by a large number located in a predefined order one of the indicators of the first, second and third groups, the number of which is less than the number of logical pixels of the original color image. For this two-dimensional array formed by a logical pixels of the original color image can be divided into many overlapping data regions. Moreover, arbitrary (considered as a random element of the set), the data region may be a square matrix and include multiple logical pixels of the original color image, located next to each other in this two-dimensional array of logical pixels, and some logical pixels of the original color image may not be included in any one of the data regions. Then each data region composed of logical pixels that the "source" of the color image can be provided in one-to-one correspondence pixel display, forming on this surface rendering surface rendering. And then in each data region, each logical pixel in the original color image, part of this area of data at high speed can be displayed on one pixel indie is ATOR, one-to-one corresponding to the data region. And in the process of displaying arbitrary (considered as a random element of the set) logical pixel's original color image, part of an arbitrary (considered as a random element of the set) of the data area, on a single-pixel display, one-to-one corresponding to the data region on the surface visualization display only the data of the first, second or third group contained in this logical pixel, which can be used in the formation of the light flux respectively conditionally "first"conditionally "second" or conditional "third" color, directional formed from these single-pixel indicator surface area visualization respectively the first, second or third group.

The process data view "original" color image consists of several cycles. In each cycle into multiple pixel indicators simultaneously display only part of the logical pixels of the original color image. Many logical pixels of the original color image displayed on many pixel indicators in one cycle, produce a data field. The number of logical pixels "source" is Vatan image, the components of the data field is equal to the pixel number of the indicators corresponding to the data areas. While the actual number of cycles equal to the number of logical pixels constituting an arbitrary region of data. Thus, each frame of the original color image can be presented on the surface of visualization in the sequential display with high speed on many sections of the surface rendering of the corresponding logical pixels of the original color image, several data fields.

Visual sensations arising from the observer when looking at random (considered as a random element of the set) are one indicator of the first, second or third group used for serial data representing respectively the first, second or third group contained in logical pixels "source" of the color image components corresponding to this pixel indicator data area, can be comparable with the visual sensations that arise from the observer when viewing the same pixel of the display, but used to represent the data contained in the logical pixel mentioned "small" color image. Moreover, in order in the PR is dostavlenija data referred to the "source" color image on said surface visualization were most accurately represented the boundaries of large colored and achromatic components contemplate observer a color image, and were also the most visible small achromatic details of periodic structures that the observed color image and contained the most information about achromatic detail that the observed color image, it is enough that each of the mentioned pixel indicator one-to-one corresponded to the above-mentioned data area, and referred to the field data do not overlap.

Enough is often a white color is an essential component images. The data of the fourth group, in characterizing the three-dimensional color space first, second or third normalized color coordinate of the achromatic color can be obtained on the basis of data of the first, second and third groups contained in logical pixels of the color image. Therefore, the inclusion of multiple pixel indicators forming surface rendering, pixel indicators of the fourth group, each of which can be used to generate directional from this pixel indicator light flux white (achromatic) color according to the fourth group, is justified. Each pixel indicator of the fourth group forms on the surface rendering the surface area of visa is Itachi fourth group.

Partitioning a two-dimensional array of logical pixels of the color image to be presented on the surface of visualization, in many areas of data and the decomposition of the set of surface patches visualization components surface visualization, in many areas surface areas of visualization, as well as how data are color image on the surface of the visualization can be described by using the management table. Each element of the management table may contain the address of the surface area of visualization, the logical address of the pixel to be view on the surface visualization, and a sign of conformity of the logical pixel to surface area visualization belonging to one of groups of the surface area of the visualization. The order of items in the control table may define how data are color image on the surface visualization. When this logical pixels of the color image whose addresses are contained in the elements of a management table arranged in one row in this management table may contain image data which is to be submitted on the surface visualization at the same time.

The visual display device may include a display module and managing the fashion of the e l e C interconnected via a data interface.

The display module may include a lot located in a predefined order one of the indicators that make up the screen, and the control circuit these single indicators. The pixel number of the indicators included in the display module, can take different values. In addition, the display module may vary according to the type used single indicators. Device and procedure for the operation of the control circuits of the pixel indicators are determined by the type used in the display module pixel indicators.

The control unit can include means for storing image data and a control grid and means for processing the image data, allowing you to select the image data from the means for storing the image data and to transmit this image data in the display module in accordance with a predefined order of presentation of the image data on the surface of the display module. The functions performed by the control module can be assigned to a computing device, such as a controller device visual display.

A known method disclosed in the published description of the invention to Pat the NTU of the Russian Federation No. 2159013 "How to play color image". This method is similar for each of the methods of the claimed group of inventions.

In this way the concept of "pixel color image, a pixel of the reproduced color image, a pixel of the reproduced image" is used to refer to data of a color image to be reproduced. These concepts include the concept of a "pixel", which is related to the concept of "logical pixels". Moreover, the notion of "logical pixels" is more suitable to refer to data of a color image to be reproduced. So using instead of the above concepts, including the concept of "pixel", the concept of "logical pixel color image", including the concept of "logical pixels", to refer to data of the color image is valid.

The set of features that characterize this way, can be represented in the following form.

How to play color image,

namely, that

each logical pixel color image is reproduced on the surface visualization, broken into zones, each consisting of three regions, comprising, respectively, the area of the first group, second group and region of the third group, formed with the responsible one or more areas of the first group, one or more sections of the second group and one or more stations of the third group, which is used to visually present information on three linearly independent colors contained in logical pixels of the color image;

in the process of reproducing a color image

first surface visualization is divided into elements, forming a two-dimensional array composed of one or several neighbouring land surface visualization everyone,

and then a set of logical pixels of the color image one-to-one display on the surface visualization, and

for each element, surface visualization, one-to-one corresponding to one of the logical pixels of the color image, and for each linearly independent color rendered on the surface of the imaging number information linearly independent color used when displaying the element surface visualization information about this color contained in the appropriate element of the logical pixel of the color image are set to the result of multiplying the amount of information about this color contained in this logical pixel, by an amount equal to the ratio of the number of all used to visually represent the information about this color plots the components of this element, to the number of lots of the same group, forming a region of a surface rendering.

Analysis of the totality of symptoms that characterize this way of reproduction of a color image, allows to draw the following conclusions.

First, because in the process of reproducing a color image first surface visualization is divided into elements, forming a two-dimensional array composed of one or of several adjacent areas of the surface rendering each",

the composition of each element of surface visualization determined only in the process of reproducing a color image and, consequently, the implementation of this method must be implemented a mechanism to perform various partitioning the surface of the imaging elements.

Secondly, because in the process of reproducing a color image" "rendering surface is divided into items, made up of one or several neighbouring land surface rendering each and

"each logical pixel color image is reproduced on the surface visualization, broken into zones, each consisting of three fields," formed according to one or several areas of the first group, one or more sections of the second group and ar is them or more stations of the third group",

each zone is an element of surface imaging and, therefore, at the time of reproduction of the color image, there are at least two partitions of a given surface visualization elements.

Thirdly, because the composition of each element surface visualization determined directly in the process of reproducing a color image, and in the process of reproducing a color image

first surface visualization is divided into elements, forming a two-dimensional array composed of one or several neighbouring land surface visualization everyone,

and then a set of logical pixels of the color image are mutually clearly show many elements of the surface rendering"

each element of the surface rendering may consist of one section and, therefore, to reproduce the color image on the surface visualization without geometric distortions, many sections of the surface visualization should form a two-dimensional array with a pitch of arrangement of surface patches visualization in the rows of the given two-dimensional array equal to the spacing of the surfaces visualization in the columns of the given two-dimensional array.

Fourthly, as "rendering surface is divided into a ELEH the coefficients, forming a two-dimensional array composed of one or of several adjacent areas of the surface rendering each and

"the set of pixels of the reproduced image one-to-one display many elements of the surface rendering"

Pets existence of elements of surface rendering, which does not correspond to a single logical pixel of the color image, and therefore, the number of the parts of the surface visualization equal to the number of surface areas of visualization, the element surface visualization, multiplied by the number of surface elements of the visualization, greater than or equal to the number of pixels of the reproduced image.

Fifthly, as "for each element surface visualization, one-to-one corresponding to one of the logical pixels of the color image, and for each linearly independent color rendered on the surface of the imaging number information linearly independent color used when displaying the element surface visualization information about this color contained in the appropriate element of the logical pixel of the color image are set to the result of multiplying the amount of information about this color contained in the nom logical pixel, by an amount equal to the ratio of the number of all used to visually represent information about the color of the parts of this element to the number of lots of the same group, forming a region of a surface rendering"

"for each element of the surface rendering", formed in one area of a surface visualization, "one-to-one corresponding to one of the logical pixels of the color image, and for each linearly independent color rendered on the surface of the imaging number information linearly independent color used when displaying the element surface visualization information about this color contained in the appropriate element of the logical pixel of the color image is equal to the amount of information about this color contained in this logical pixel.

Sixth, because for each element surface visualization, one-to-one corresponding to one of the logical pixels of the color image, and for each linearly independent color rendered on the surface of the imaging number information linearly independent color used when displaying the element surface visualization information about this color contained in the corresponding to this logical element is the first pixel of the color image, set to the result of multiplying the amount of information about this color contained in this logical pixel, by an amount equal to the ratio of the number of all used to visually represent information about the color of the parts of this element to the number of lots of the same group, forming a region of a surface rendering"

the least amount of surface area of the visualization needed to display information about one of the three linearly independent colors contained in the logical pixel of the color image is equal to the number of surface patches visualization used for visual presentation of information about the color of a region of the surface rendering

Seventh, because for each element surface visualization, one-to-one corresponding to one of the logical pixels of the reproduced image, and for each linearly independent color rendered on the surface visualization"set "amount of information about linearly independent color used when displaying the element surface visualization information about this color contained in the appropriate element of the logical pixel color image",

element surface rendering, receiving the tion in the split surfaces of the imaging elements, is the smallest addressable element surface visualization for a given partitioning of the surface of the imaging elements, allowing to visualize the data contained in the corresponding to this element surface visualization logical pixel.

Eighth, because each logical pixel color image is reproduced on the surface visualization, broken into zones, each consisting of three regions, comprising, respectively, the area of the first group, second group and region of the third group, formed according to one or several areas of the first group, one or more sections of the second group and one or more stations of the third group, and

"the amount of information about linearly independent color used when displaying the element surface visualization information about this color contained in the appropriate element of the logical pixel of the color image are set to the result of multiplying the amount of information about this color contained in this logical pixel, by an amount equal to the ratio of the number of all used to visually represent information about the color of the parts of this element to the number of lots of the same group, forming a region of a surface rendering is,

this method allows you to reproduce a color image only on the surface visualization, pre-broken into zones, for which we know the number of the parts of each area included in a separate zone.

Consider how to play color image allows to reproduce the color image on the surface visualization, consisting of many multi-colored plots located in a predefined order, forming a two-dimensional array with a pitch of arrangement of surface patches visualization in the rows of the given two-dimensional array equal to the spacing of the surfaces visualization in the columns of the given two-dimensional array. The number of logical pixels in rows and the number of logical pixels in columns of the array of logical pixels of the color image to be reproduced on the surface visualization should not be greater than, respectively, the number of surface patches visualization in rows and the number of surface patches visualization in columns two-dimensional array of surface patches visualization. In the process of reproducing a color image of this surface visualization is divided into elements, forming a two-dimensional array composed of one or several neighbor is their land surface rendering each. Breaking the surface of the imaging elements is produced so that the number of surface elements visualization resulting from this splitting surface visualization elements, was not less than the number of logical pixels of the color image. Each element obtained as a result of this splitting surface visualization elements, corresponds to a unique address. The amount of surface area of the visualization included in the element surface visualization resulting from this splitting surface visualization elements, and arranged in one row in a two-dimensional array of surface patches visualization, equal to the amount of surface area of the visualization included in this element surface visualization and located in a single column of a two-dimensional array of surface patches visualization. After splitting surface visualization on the elements of a set of logical pixels of this color one-to-one image display on the surface visualization. Before displaying each logical pixel on the corresponding element surface visualization for each of the three linearly independent colors compute the amount of information about linearly independent color, which BU the em used when displaying the element surface visualization information about this color, contained in the corresponding to this element of the logical pixel color image.

Therefore, the method of reproduction of the color image can be used to reproduce a color image, for rendering the logical pixels which is the maximum number of sections of this surface rendering, and playback on a given surface rendering of a color image containing the maximum number of logical pixels equal to the number of sections of this surface visualization. For example, suppose that when playing on a given surface rendering of the color image, the number of logical pixels in rows and columns of the array of logical pixels is several times smaller than the number of surface areas of visualization, respectively, in the rows and columns of a two-dimensional array of surface patches visualization, it is necessary to use the maximum number of lots that surface visualization. For this purpose, the process of reproducing this color image rendering surface is divided into elements so that each of the elements obtained in the process of splitting surface visualization elements, contained the greatest number of sites conduct the displacement visualization, which can only contain the element surface visualization provided that the number of surface elements of visualization in the rows and columns of a two-dimensional array of surface elements rendering not less than the number of logical pixels respectively in rows and columns of the array of logical pixels of the given color image. If, for example, on a given surface visualization it is necessary to reproduce a color image that contains the greatest number of logical pixels, then use a color image, the number of logical pixels in rows and columns of the array of logical pixels which is equal to the number of surface patches visualization, respectively, in the rows and columns of a two-dimensional array of surface patches visualization. During playback of the given color image rendering surface is divided into elements, each of which contains one plot of this surface rendering.

The number of options for partitioning the surface of the visualization elements in the process of reproducing color images that differ by the number of logical pixels, can be quite large and depends on the amount of surface area of the imaging components of the given rendering surface. Moreover, for each is " breaking the surface of the imaging elements, for each of the three linearly independent colors for each element in the surface rendering resulting from this splitting surface visualization elements, compute the amount of information about this color used when displaying data element surface visualization information about this color contained in the logical pixel of the color image corresponding to the given element surface visualization. Therefore, the complexity and cost of the device, intended for realization of this method of reproduction of a color image can be quite high. Moreover, for reproducing color images, each of which is specified by the logical array of pixels with a predefined number of rows and columns on the surface visualization, consisting of elements of the surface of the imaging forming a two-dimensional matrix, the number of rows and columns which is equal to respectively the number of rows and columns of the array of logical pixels of the color image, it is sufficient to use surface rendering, for which previously only implemented one version of the partition elements. Therefore, this method of reproduction of the color image reproduction of colour images on this surface visual is ment is redundant.

Thus, the disadvantages of this method are the high complexity and cost of implementing devices, surface rendering which consists of a large number of surface patches visualization as well as redundancy and, as a consequence, the higher the complexity and cost of implementing the device used to reproduce color images, for which the pre-determined the only way to break the surface of the imaging elements.

Furthermore, this method does not allow to divide the array of logical pixels of the color image on the plane of the image data bit-by-bit display into multiple non-overlapping data regions, each of which consists of four or more logical pixels and each of which mutually correspond directly to the element surface visualization. Therefore, the considered method does not allow to present on the surface of the display module logical pixels of the color image, the number of which exceeds the number of elements in the surface rendering.

The considered method is also not possible to establish sets of surface patches visualization to use for the visual representation on the surface of the imaging data of the color image to start odnovremenno.

It should also be noted that the brightness of the image observed on the surface visualization using this method, will be less than the brightness of the image observed on the surface visualization, which included surface rendering of the fourth group, which allow you to visually provide information about achromatic (white) color, calculated on the basis of information about the three linearly independent colors contained in logical pixels of the color image. The analyzed method cannot be used for presenting the data to the color image on the surface of visualization, including surface rendering of the fourth group, allowing to increase the brightness of the image observed on this surface rendering.

The presence of the above disadvantages of this method

prevents the achievement of the technical result consists in the

view raster data of the color image on the surface of the imaging formed by surface rendering of three species that are evenly distributed over this surface visualization

when any mutual arrangement of surface patches visualization forming this surface visualization

if any previously about the certain ratio of surface areas of visualization, the corresponding logical pixels of this image, and the number of logical pixels of this image and

in accordance with any predefined order of data presentation of this image on this surface rendering, which can only be implemented for this surface visualization and according to which data of the image contained in logical pixels corresponding to the same arbitrary (considered as a random element of the set) to plot this surface visualization, to be submitted on this surface visualization at different points in time, one-to-one correspond to the data contained in logical pixels.

The presence of the above disadvantages of this method are also

prevents the achievement of the technical result consists in the

view raster data of the color image on the surface of the imaging formed by surface rendering of the four species that are evenly distributed over this surface visualization

when any mutual arrangement of surface patches visualization forming this surface visualization

when any pre-defined ratio of surface areas of visualization, sootvetstvujushij logical pixels of this image, and the number of logical pixels of this image and

in accordance with any predefined order of data presentation of this image on this surface rendering, which can only be implemented for this surface visualization and according to which data of the image contained in logical pixels corresponding to the same arbitrary (considered as a random element of the set) to plot this surface visualization, to be submitted on this surface visualization at different points in time, one-to-one correspond to the data contained in logical pixels

and

increasing the brightness of a color image rendered on this surface rendering.

Closest to the methods of the claimed group of inventions is a method disclosed in the published description of the invention to the patent of Russian Federation №2249257 "Method and device for presenting data multicolor image bitwise display on the dot matrix display screen, on which is placed the lamp of the three primary colors".

In this way the concept of "first color lamp", "lamp of the second color and the third color lamp" is used to denote, respectively, the lamps of the first group, lamps Deut the th group and the lamp of the third group, which can be activated for light emission, respectively conditionally "first" color conditionally "second" color and conditionally "third" color. Therefore, the concept of "the lamp of the first color and the lamp of the first group, the second color lamp and the second lamp group"and the term "third color lamp and the lamp of the third group", used to indicate lamps, which can be activated for light emission, respectively conditionally "first" color conditionally "second" color and conditionally "third" color, are equivalent. Therefore, the characteristics of source claims that characterize the considered method, instead of the concepts of "first color lamp", "lamp of the second color and the third color lamp can be used the concept of "the lamp of the first group, the second lamp group" and "the lamp of the third group," respectively, and the concept of "the lamp of the first group, the second lamp group and the lamp of the third group, which can be activated for light emission, respectively conditionally "first" color conditionally "second" color and conditionally "third" color".

In this way the concept of "data of the first color data, second color and third color data are used to denote respectively the data of the first group, the second data group and data of the third group, describing in Trets the dimensional color space, the three normalized color coordinates respectively conditionally "first", conventionally, the "second" and conditionally "third" linearly independent colors. Therefore, the concept of "data of the first color and first data groups, the data of the second color and the second data groups, the data of the third color data of the third group", used to refer to data characterizing the three-dimensional color space, respectively, the normalized color coordinate conditionally "first" color, normalized color coordinate conditionally "second" color and standard color coordinate conditionally "third" color, are equivalent. Therefore, the characteristics of source claims that characterize the considered method, instead of the concepts of "data of the first color data, second color and third color data" can be used the concept of "first data groups, the data of the second group and the data of the third group," respectively, and the concept of ' data of the first group, the second data group and data of the third group, which characterize, respectively, the normalized color coordinate conditionally "first" color, normalized color coordinate conditionally "second" color and standard color coordinate conditionally "third" color".

In the prior art it is known that the color image data in the format bitwise display, in which one logical pixel is expressed PU is eat collecting data of the first group, data of the second group and third group, characterizing respectively the normalized color coordinate conditionally "first" color, normalized color coordinate conditionally "second" color and standard color coordinate conditionally "third" color can be represented in the form of three planes of data, including the data plane of the first group, the plane of the second data group and the data plane of the third group. Moreover, the data plane of the first group, the plane of the second data group and the data plane of the third group is formed, respectively, data of the first group, the second data group and data of the third group included in the respective logical pixels of the color image.

In this way the concept of "plane data of the first color plane data of the second color and the plane data of the third color is used to denote, respectively, the plane data of the first group, the plane of the second data group and the data plane of the third group, formed, respectively, data of the first group, the second data group and data of the third group, which is the image data in the format bitwise display, in which one logical pixel is expressed by collecting data of the first group, the second data group and data of the third group, the characteristics of arisawa respectively normalized color coordinate conditionally "first" color, normalized color coordinate conditionally "second" color and standard color coordinate conditionally "third" color". Therefore, the concept of "plane data of the first color and the plane of the first data groups, the data plane of the second color and the plane of the second data groups, the data plane of the third color and the plane data of the third group", used to denote, respectively, the data of the first group, the second data group and data of the third group, which is the image data in the format bitwise display, in which one logical pixel is expressed by gathering data respectively of the first group, the second data group and data of the third group, which characterize, respectively, the normalized color coordinate conditionally "first" color normalized color coordinate conditionally "second" color and standard color coordinate conditionally "third" color"are equivalent. Therefore, the characteristics of source claims that characterize this way, instead of the terms "plane data of the first color plane data of the second color and the plane data of the third color can be used concepts, respectively, the plane of first data groups, the data plane of the second group and the data plane of the third group".

The combination of the sign is in, characterizing the considered method can be represented in the following form.

The way data multicolor image bitwise display on the dot matrix display screen, on which is placed the lamp of the three primary colors, namely, that

a large number of pixel lights evenly placed in the regular combination, to constitute a display screen, and

these pixel lamp are three types of lamps, which are the lamp of the first group, the second lamp group and the lamp of the third group, which can be activated for light emission, respectively conditionally "first" color conditionally "second" color and conditionally "third" color, and these three types of pixel lamps are distributed uniformly on the display screen;

image data to be presented on the screen are multicolor data format bit-by-bit display, in which one logical pixel is expressed by collecting data of the first group, the second data group and data of the third group, which characterize, respectively, the normalized color coordinate conditionally "first" color, normalized color coordinate conditionally "second" color and standard color coordinate conditionally "third" color;

the plane data of the first group on the plane image data is the position bitwise display is divided into multiple data regions, where each data region is composed of a set of logical pixels placed next to each other;

each data region put in one-to-one correspondence lamp of the first group on the display screen;

action selection in a specific order, first data group from a variety of logical pixels that belong to the same data area, again at high speed;

each lamp of the first group corresponding to the data area, activate to emit light according to the selected data of the first group;

the plane data of the second group in the plane of the image data bit-by-bit display is divided into multiple data regions, each data region is composed of a set of logical pixels placed next to each other;

each data region put in one-to-one correspondence lamp of the second group on the display screen;

the act of choosing, in order, the data of the second group of sets of logical pixels that belong to the same data area, again at high speed;

each lamp of the second group corresponding to the data area, activate to emit light according to the selected data of the second group;

the plane data of the third group in the plane of the image data bit-by-bit display is divided into many wher is th data where each data region is composed of a set of logical pixels placed next to each other;

each data region put in one-to-one correspondence lamp of the third group on the display screen;

the act of choosing, in order, data of the third group from the set of logical pixels that belong to the same data area, again at high speed;

each lamp of the third group corresponding to the data area, activate to emit light according to the selected data of the third group;

the path through which the plane of the image data bit-by-bit display in the fission process in many areas the data are the data plane of the first group, the plane of the second data group and the data plane of the third group, such that these data regions are mutually shifted in position in the plane of the image data bit-by-bit display with a partial overlap in conjunction with the shift position in the stacking order of the lamps of the first group, the second lamp group and the lamp of the third group on the display screen.

Analysis of the totality of symptoms that characterize this way of reproduction of a color image, allows to draw the following conclusions.

First, because this method is characterized by signs of "a large number of pixel Lam is evenly placed in the regular combination, to make the display screen, and these pixel lamp are three types of lamps, which are the lamp of the first group, the second lamp group and the lamp of the third group, and these three types of pixel lamps are distributed uniformly on the display screen, then

actions aimed at the formation of the structure of the display screen, described these signs are an integral part of each of the process data view multi-color image bit-by-bit display on the dot matrix display screen, on which is placed the lamp of the three primary colors, using this method.

Secondly, because this way of presenting data multicolor image bitwise display on the dot matrix display screen, on which is placed the lamp of the three primary colors"refers to the data view multi-color image bit-by-bit display on the dot matrix display, and

the concept of "a large number of pixel lights" is the only term used in the formula this method to indicate the addressable elements of the display screen, then

the result of the process of formation of structure of the display screen in this way is the matrix of pixel lamps with a finite number of pixel lights in rows and NT is vcah this matrix, each pixel lamp which corresponds to a unique address.

Third, because "a large number of pixel lights evenly placed in the regular combination, to constitute a display screen, and

these pixel lamp are three types of lamps forming a matrix of pixel lights, "which are the lamp of the first group, the second lamp group and the third lamp group"

the display screen is formed by data of a large number of pixel lamps, can be divided into separate non-overlapping display areas, each of which includes one or more pixel lamps of the first group, one or more pixel lamps of the second group and one or more pixel lamps of the third group.

Fourth, because "a large number of pixel lights evenly placed in the regular combination, to constitute a display screen, and

these three types of pixel lamps are distributed uniformly on the display screen so that the pixel data of the lamp form a matrix of pixel lamps,

there are regular combinations of pixel lamps and such variations are split display screen on a separate non-overlapping repeating screen area for which the minimum number of pixel lights, arbitrary components (considered as random elements is as many) of the display region, equal to three, and

pixel lamp, the components of this screen area, located next to each other in the same row or the same column of the pixel matrix of the lamps.

Fifth, because a large number of pixel lights evenly placed in the regular combination, to constitute a display screen, and

these three types of pixel lamps are distributed uniformly on the display screen so that the pixel data of the lamp form a matrix of pixel lamps,

there are regular combinations of pixel lamps and such variations are split display screen on a separate non-overlapping repeating screen area for which the minimum number of pixel lights, arbitrary components (considered as a random element of the set), the display area is equal to four, and

pixel lamp, the components of this screen area, located next to each other in two rows and two columns of the pixel matrix of the lamps.

Sixthly, since the plane of the first data groups, the data plane of the second group and the data plane of the third group" "on the plane of the image data bit-by-bit display" is divided into multiple data regions, each data region is composed of a set of logical pixels placed next to each other, and

"the way, the pic is edstam which the plane of the image data bit-by-bit display in the fission process in many areas the data are the data plane of the first group, the plane of the second data group and the data plane of the third group, such that these data regions are mutually shifted in position in the plane of the image data bit-by-bit display with a partial overlap in conjunction with the shift position in the stacking order of the lamps of the first group, the second lamp group and the lamp of the third group on the display screen, then

for repetitive display areas, which includes three pixel lamp located next to each other in the same row or the same column of the pixel matrix of lamps, the minimum number of logical pixels forming plane of the image data bit-by-bit display a square matrix, arbitrary components (considered as a random element of the set) the data region is equal to nine, and

a data region on the plane of the image data bit-by-bit display should partially overlap.

Seventh, because the plane of the first data groups, the data plane of the second group and the data plane of the third group" "on the plane of the image data bit-by-bit display" is divided into multiple data regions, each data region is composed of a set of logical pixels placed next to each other, and

"the path through which the plane of the image data of positiverate in the fission process in many areas the data are the data plane of the first group, the plane of the second data group and the data plane of the third group, such that these data regions are mutually shifted in position in the plane of the image data bit-by-bit display with a partial overlap in conjunction with the shift position in the stacking order of the lamps of the first group, the second lamp group and the lamp of the third group on the display screen, then

for repetitive display areas, which includes four pixel lamp located next to each other in two rows and two columns of the matrix of pixel lamps, the minimum number of logical pixels forming plane of the image data bit-by-bit display a square matrix, arbitrary components (considered as a random element of the set) the data region is equal to four, and

a data region on the plane of the image data bit-by-bit display may overlap or not overlap.

Eighth, since the plane of the first data groups, the data plane of the second group and the data plane of the third group" "on the plane of the image data bit-by-bit display" is divided into multiple data regions, each data region is composed of a set of logical pixels placed next to each other, and

"the path through which the plane of the data and what the considerations applying bitwise display in the fission process in many areas the data are the data plane of the first group, the plane of the second data group and the data plane of the third group, such that these data regions are mutually shifted in position in the plane of the image data bit-by-bit display with a partial overlap in conjunction with the shift position in the stacking order of the lamps of the first group, the second lamp group and the lamp of the third group on the display screen, then

there are no such regular combinations of pixel lamps, forming a two-dimensional matrix, and such variants splits the display screen into separate non-overlapping repeating the display region, on the plane of the image data bit-by-bit display will not overlap the field data obtained in the preparation plane data of the first group, area data obtained in the preparation plane data of the second group, and area data obtained in the preparation plane data of the third group, and

there are no such regular combinations of pixel lamps, forming a two-dimensional matrix, and such variants splits the display screen into separate non-overlapping repeating the display region, on the plane of the image data bit-by-bit display will not overlap the field data obtained in the preparation plane data of the second group, with data regions, polucen the mi in the preparation plane data of the third group.

Ninth, because the concept of "pixel light" is the only term used in the signs that characterize this way, to refer to varieties of light-emitting cells, designed to emit light from a large number of which may be composed of the display screen, then

this method can not be attributed to the data view multi-color image bit-by-bit display on the dot matrix display, which is placed in the regular combination of the light modulating cells of the three groups, which are designed to pass through the light respectively of the three primary colors or to reflect from light respectively of the three primary colors.

In the tenth, the claims of this method contains the characteristics used to determine the order of selecting the data of the first, second and third groups included in logical pixels constituting arbitrary (considered as a random element of the set) the data area corresponding respectively to the lamp first, second or third group, and activation of this lamp first, second or third group according to the selected data, respectively, the first, second or third group, but

does not contain characteristics that describe the order in which the matrix of the display is enom screen, activate the lamp first, the second and third groups corresponding to the different data regions on the plane of the image data bit-by-bit display.

Consider the method allows many logical pixels of the color image display on the display screen composed of multiple pixel lamp first, second and third groups, placed in the regular combinations that can be activated for light emission, respectively conditionally "first"conditionally "second" and conditionally "third" colors. Each logical pixel of the given color image data include the first, second and third groups, characterizing the three-dimensional color space, the three normalized color coordinates respectively conditionally "first"conditionally "second" and conditionally "third" colors. Data is a color image, comprising a two-dimensional array of logical pixels of the color image are image data format bit-by-bit display. The plane of the image data bit-by-bit display can be presented in the form of three planes of data, including the data plane of the first group, the plane of the second data group and the data plane of the third group. Each plane data of the first, second or third group represents a two-dimensional array formed by the data line is built first, the second or third group contained in logical pixels constituting the two-dimensional array of logical pixels of the color image. The plane of the first data group, the data plane of the second group and the data plane of the third group in the plane of the image data bit-by-bit display is divided into multiple data regions, each of which includes a set of logical pixels placed next to each other. Each data region in the plane of the image data bit-by-bit display, obtained by composing the plane of the first data group, the data plane of the second group or plane data of the third group, put in one-to-one correspondence, respectively, the pixel lamp of the first group, the pixel of the second lamp group or pixel lamp of the third group. Selecting data of the first, second and third groups included in logical pixels constituting the plane of the image data bit-by-bit display data area obtained in the preparation according to the data plane of the first group, the plane of the second data group and the data plane of the third group, is repeated at high speed, and each pixel lamp, respectively, the first, second and third group is activated for light emission, respectively conditionally "first"conditionally "second" or mustache is the ESD of the "third" color. Plane data of the first, second and third groups in the plane of the image data bit-by-bit display is divided into a data region so that the received data region mutually shifted in position in the plane of the image data bit-by-bit display with a partial overlap in conjunction with the shift position in the stacking order on the display screen pixel lamps respectively the first, second and third groups. The peculiarity of this method is that the field data obtained by dividing plane data of the first group in the plane of the image data bit-by-bit display data area obtained by dividing plane data of the second group in the plane of the image data bit-by-bit display, and a data region obtained by dividing plane data of the third group in the plane of the image data bit-by-bit display will partly overlap in the plane of the image data bit-by-bit display with any order of placement on the display screen pixel lamps.

However, this method does not allow to divide the logical array of image pixels in the plane image data bit-by-bit display into multiple non-overlapping data regions, each of which mutually correspond pixel lamp of the display is logo screen. In this way any two data region on the plane of the image data bit-by-bit display, which correspond to two adjacent to each other pixel lamp display screen belonging to different groups of pixel lamps, partially overlap, which leads to less accurate representation of the boundaries of large colored and achromatic components of the image rendered on the display screen, and also to a weakening of discernment small achromatic components of periodic structures of this color image and to reduce the amount of information about the achromatic components of this color.

Furthermore, this method does not allow you to share multiple pixel lamp display screen into multiple sets of pixel lamps, each of which includes several adjacent each other pixel lamps display screen and each of which mutually correspond logical pixel of the color image, which does not allow for the submission of data to the color image on the display screen to use such number of pixel lamps, which exceeds the number of logical pixels of the color image.

The considered method is also not possible to establish sets of surface patches visualisation and, be used for the visual representation on the surface of the imaging data of the color image start at the same time.

It should also be noted that the brightness of the image rendered on the display screen using this method, less the brightness of the image rendered on the display screen, which also includes pixel lamp of the fourth group, which when activated emit light achromatic color. The display screen used in this way does not contain the pixel lamps of the fourth group. Therefore, the considered method can not be used to represent the data of the color image on the display screen that includes the pixel lamp of the fourth group, allowing to increase the brightness of the image displayed on this display screen.

The presence of the above disadvantages of this method

prevents the achievement of the technical result consists in the

view raster data of the color image on the surface of the imaging formed by surface rendering of three species that are evenly distributed over this surface visualization

when any mutual arrangement of surface patches visualization forming this surface is salsali,

when any pre-defined ratio of surface areas of visualization, the corresponding logical pixels of this image, and the number of logical pixels of this image and

in accordance with any predefined order of data presentation of this image on this surface rendering, which can only be implemented for this surface visualization and according to which data of the image contained in logical pixels corresponding to the same arbitrary (considered as a random element of the set) to plot this surface visualization, to be submitted on this surface visualization at different points in time, one-to-one correspond to the data contained in logical pixels.

The presence of the above disadvantages of this method are also

prevents the achievement of the technical result consists in the

view raster data of the color image on the surface of the imaging formed by surface rendering of the four species that are evenly distributed over this surface visualization

when any mutual arrangement of surface patches visualization forming this surface visualization

p> when any pre-defined ratio of surface areas of visualization, the corresponding logical pixels of this image, and the number of logical pixels of this image and

in accordance with any predefined order of data presentation of this image on this surface rendering, which can only be implemented for this surface visualization and according to which data of the image contained in logical pixels corresponding to the same arbitrary (considered as a random element of the set) to plot this surface visualization, to be submitted on this surface visualization at different points in time, one-to-one correspond to the data contained in logical pixels

and

increasing the brightness of a color image rendered on this surface rendering.

A large number of pixel lamps constituting the dot matrix display screen, form rendering surface, made up of many sections of surface rendering, each of which is formed corresponding to the pixel lamp. The term "pixel lamp is used, including, and to denote the lamp, which corresponds to a unique address. PTS is seen, what pixel the lamp and the surface area of visualization, created this pixel lamp, the same unique address.

Based on technical views described above, the method-prototype can also be characterized by the following features.

The way data multicolor image bitwise display on the dot matrix display screen, on which is placed the lamp of the three primary colors, namely, that

the image data is present on the surface visualization, educated arranged in a predefined order of the parts of the surface of the imaging components of many sections of surface rendering, and

the image data are multi-color data and are in the plane of the image data logical pixels of the color image components of a set of logical pixels of the color image

each logical pixel of the color image is expressed by collecting data of the first group, the second data group and data of the third group, in characterizing the three-dimensional color space, the three normalized color coordinates respectively conditionally "first"conditionally "second" and conditionally "third" linearly independent of flowers,

the surface visa is Itachi includes a surface rendering of the first group, surface rendering of the second group and the surface rendering of the third group, and

arbitrary (considered as a random element of the set) surface rendering of the first, second or third group is used for the visual representation on the surface of the imaging data, respectively, the first, second or third group, converted to luminous flux, respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group.

It is known device disclosed in the published description of the invention to the patent of Russian Federation №2249858 System full-color led display". This device is similar for each device in the claimed group of inventions.

The set of features that characterize the considered device, can be represented in the following form.

System full-color led display

contains a display module and coupled with the display module through the means of data transmission data transmission module, and

the data transmission module allows you to store multiple logical pixels of the color image forming two-dimensional array of logical pixels of the color image forming flat the feature of the image data bit-by-bit display, each of which includes data of the first group, the second data group and data of the third group, in characterizing the three-dimensional color space, the three normalized color coordinates respectively conditionally "first"conditionally "second" and conditionally "third" linearly independent of flowers,

the surface of the display module consists of a large number located in a predefined order of the LEDs of the first, second and third groups, which can be activated for light emission, respectively conditionally "first" color conditionally "second" color and conditionally "third" color,

the data transmission module generates the OSD module logical pixels of the color image in accordance with a predefined order of issuance of logical pixels of this color image, and

each issued by the data transmission module logical pixel of the color image corresponds to an addressable element surface visualization, formed part of a surface of a display module of the one or more LEDs of the first group, one or more LEDs of the second group and one or more LEDs of the third group.

The full-color display allows you to quickly visualize a color image with high quality is the your, achieved by adaptation of the device to the characteristics of the led as the radiation source.

However, this system of full-color display allows arbitrary (considered as a random element of the set) logical pixel of the color image generated by the data transmission module, put in one-to-one correspondence one led of the first, second or third group, which is part of the surface of the display module, and activate the led of the first, second or third group to emit light respectively conditionally "first"conditionally "second" or conditional "third" color according to respectively the first, second or third group contained in this logical pixel color image. Each logical pixel of the color image generated by the data transmission module, which is part of the system of full-color display, corresponds to an addressable element surface visualization made of several LEDs of the first, second and third groups, which is part of the surface of the display module, which leads to less accurate representation of the boundaries of large colored and achromatic components of the image visualized on the surface of the display module, and that is to weaken discernment small achromatic components of periodic structures that rendered color image and to reduce the amount of information about achromatic details of this visualized color image.

In addition, the data transmission module of the system of full-color display allows you to divide a logical array of the pixels of the color image on the plane of the image data bit-by-bit display into multiple non-overlapping data regions, each of which is formed by several adjacent logical pixels of the color image, each of which corresponds to an addressable element surface visualization, consisting of multiple LEDs, forming part of the surface of a display module of the system of full-color display. Therefore, the considered system full-color display allows you to present on the surface of the display module is a color image, the number of logical pixels which is larger than the number of addressable elements of the surface visualization on the surface of the display module.

The full-color display is also not possible to arbitrarily set the sets of LEDs to be activated for light emission start at the same time.

It should also be noted that the brightness of the image observed on the surface of a display module of the system of full-color display, less the brightness of the image, there is aemula on the surface of the imaging device, part of which included the LEDs of the fourth group, which when activated emit light achromatic color. The surface of a display module of the system of full-color display does not contain LEDs of the fourth group. Therefore, considering the device cannot be used for presenting the data to the color image on the surface of the display module includes LEDs of the fourth group, allowing to increase the brightness of the image presented on the surface rendering of the display module.

The presence of the above disadvantages of the device in question

prevents the achievement of the technical result consists in the

view raster data of the color image on the surface of the imaging device to represent raster data of the color image formed by surface rendering of three species that are evenly distributed over the surface rendering this device

when any mutual arrangement of the surfaces of the imaging forming surface rendering this device

when any pre-defined ratio of surface areas of visualization, the corresponding logical pixels of this image is Azania, and the number of logical pixels of this image and

in accordance with any predefined order data representation of the image on the surface visualization of this device, which can only be implemented for surface rendering this device and according to which data of the image contained in logical pixels corresponding to the same arbitrary (considered as a random element of the set) surface rendering of this device, to be submitted on the surface visualization of this device at different points in time, one-to-one correspond to the data contained in logical pixels.

The presence of the above disadvantages of these units are also

prevents the achievement of the technical result consists in the

view raster data of the color image on the surface of a rendering device for rendering the bitmap data of the color image formed by surface rendering of the four species that are evenly distributed over the surface rendering this device

when any mutual arrangement of the surfaces of the imaging forming surface rendering this device

if any of the predefined ratio of surface areas of visualization, the corresponding logical pixels of this image, and the number of logical pixels of this image and

in accordance with any predefined order data representation of the image on the surface visualization of this device, which can only be implemented for surface rendering this device and according to which data of the image contained in logical pixels corresponding to the same arbitrary (considered as a random element of the set) surface rendering of this device, to be submitted on the surface visualization of this device at different points in time, one-to-one correspond to the data contained in logical pixels

and

increase the brightness of the color image visualized on the surface visualization of this device.

Closest to the device in the claimed group of inventions is the device disclosed in the published description of the invention to the patent of Russian Federation №2249257 "Method and device for presenting data multicolor image bitwise display on the dot matrix display screen, on which is placed the lamp of the three primary colors".

The set of features characterizing consider the e device can be represented in the following form.

Display device,

containing dot matrix display screen, in which a large number of lamps of the first group of lamps of the second group and lamps of the third group, which can be activated for light emission, respectively conditionally "first" color conditionally "second" color and conditionally "third" color, evenly distributed in a regular combination;

section activating circuit for activating individually referred to lamps of the first group of lamps of the second group and lamps of the third group to emit light;

section storing the image data for storing the image data bit-by-bit display to be presented on said dot matrix display screen, each logical pixel in said image data bit-by-bit display is expressed as an Assembly of data of the first group, the second data group and data of the third group, which characterize, respectively, the color coordinate conditionally "first" color, the color coordinate conditionally "second" color and color coordinate conditionally "third" color;

the control section distribution of data for distribution and transfer of the image data bit-by-bit display memory section storing the image data, in the above-mentioned section of the trigger circuit

moreover, said control section performs data distribution:

the division plane data of the first group in the plane of the image data bit-by-bit display many data areas of the first group, where each of the data areas of the first group is composed of a set of data of the first group contained in logical pixels placed next to each other;

bringing each data region of the first group in one-to-one correspondence lamps of the first group on the display screen;

selecting in a predetermined fine first data group from a variety of logical pixels that belong to one data region of the first group, at high speed;

the division plane data of the second group in the plane of the image data bit-by-bit display on multiple data regions of the second group, where each of the data regions of the second group is composed of a set of data of the second group contained in logical pixels placed next to each other;

bringing each data region of the second group are in one-to-one correspondence lamps of the second group on the display screen;

selecting in a predetermined fine data of the second group of sets of logical pixels that belong to the same data area of the second group, on the high RMSE of the spine;

the division plane data of the third group in the plane of the image data bit-by-bit display on many areas of data of the third group, where each of the data regions of the third group is composed of a set of data of the third group contained in logical pixels placed next to each other;

bringing each data region of the third group in one-to-one correspondence lamp of the third group on the display screen;

selecting in a predetermined fine data in the third group from the set of logical pixels that belong to one data region of the third group, at a high speed;

moreover, the way in which on the plane of the image data bit-by-bit display in the fission process in many areas of data of the first group, many of the data fields of the second group and in many areas the data of the third group are respectively plane data of the first group, the plane of the second data group and the data plane of the third group, such that these data regions are mutually shifted in position in the plane of the image data bit-by-bit display with a partial overlap in conjunction with the shift position in the stacking order of the lamps of the first group, the second lamp group and the lamp of the third group on the display screen;

if this is m the above section is an activating circuit performs

activating the lamps of the first group, the corresponding data region of the first group, for emitting light according to the selected data of the first group;

activating the lamps of the second group, the corresponding data area of the second group, for emitting light according to the selected data of the second group;

activating the lamp of the third group, the corresponding data region of the third group, for emitting light according to the selected data of the third group.

The analysis of the totality of characteristics of this display device, allows to draw the following conclusions.

First, because this device is characterized by signs of a "display device containing a dot matrix display screen, in which a large number of lamps of the first group of lamps of the second group and lamps of the third group, which can be activated for light emission, respectively conditionally "first" color conditionally "second" color and conditionally "third" color, evenly distributed in a regular combinations", and section activating circuit for activating individually referred to lamps of the first color, the second color lamps and lamps of the third color light emission and has no signs, signifiers, this device allows you to modify the structure of the dot matrix display screen, part of this is disorder,

this device cannot be used to form patterns dot matrix display screen in the process data view multi-color image bit-by-bit display on the dot matrix display screen, on which is placed the lamp of the three primary colors, and regular combination lamps of the first group of lamps of the second group and lamps of the third group on the dot matrix screen of this device is not pre-determined, and therefore, can be any.

Secondly, because this device has a "dot matrix display screen, in which a large number of lamps of the first group of lamps of the second group and lamps of the third group, which can be activated for light emission, respectively conditionally "first" color conditionally "second" color and conditionally "third" color, evenly distributed in a regular combinations", and section activating circuit for activating individually referred to lamps of the first color, the second color lamps and lamps of the third color light emission"

dot matrix display screen of this device is formed by a matrix of lamps with a finite number of lamps in rows and columns of this matrix, and each lamp of this matrix corresponds to a unique address.

Thirdly, because this device has "spot the dot matrix display screen, in which a large number of lamps of the first group of lamps of the second group and lamps of the third group" "evenly distributed in a regular combination"

dot matrix display screen of the device may be divided into separate non-overlapping display areas, each of which includes one or more lamps of the first group, one or more lamps of the second group and one or more lamps of the third group.

Fourthly, since the "dot matrix display screen, in which a large number of lamps of the first group of lamps of the second group and lamps of the third group" "evenly distributed in a regular combination, and

this device cannot be used to form patterns dot matrix display screen in the process data view multi-color image bit-by-bit display on the dot matrix display screen, on which is placed the lamp of the three primary colors, and a regular combination, which are uniformly distributed bulb, included in this dot matrix display screen, can be any,

there are regular combinations of lamps, in which the dot matrix display screen may be divided into separate non-overlapping repeating screen area, and

the minimum number of lamps, components produced is free (considered as a random element of the set) of the display region, is three, and

lamp, the components of this screen area, located next to each other in the same row or the same column of the matrix lamps.

Fifthly, since the "dot matrix display screen, in which a large number of lamps of the first group of lamps of the second group and lamps of the third group" "evenly distributed in a regular combination, and

this device cannot be used to form patterns dot matrix display screen in the process data view multi-color image bit-by-bit display on the dot matrix display screen, on which is placed the lamp of the three primary colors, and regular combination lamps, which are uniformly distributed bulb, included in this dot matrix display screen, can be any,

there are regular combinations of lamps, in which the dot matrix display screen may be divided into separate non-overlapping repeating screen area, and

the minimum number of lamps, arbitrary components (considered as a random element of the set), the display area is equal to four, and

lamp, the components of this screen area, located next to each other in two rows and two columns of a matrix of lamps.

Sixth, because "section control the distribution of data performs" "the division plane data of the first group", "plane data of the second group" and "plane data of the third group" "on the plane of the image data bit-by-bit display" on many areas of data, where each of the data areas of the first group is composed of a set of data of the first group contained in logical pixels placed next to each other", "each of the data regions of the second group is composed of a set of data of the second group contained in logical pixels placed next to each other", "each of the data regions of the third group is composed of a set of data of the third group contained in logical pixels placed near with each other, and

"the way in which on the plane of the image data bit-by-bit display in the fission process in many areas of data of the first group, many of the data fields of the second group and in many areas the data of the third group are respectively plane data of the first group, the plane of the second data group and the data plane of the third group, such that these data regions are mutually shifted in position in the plane of the image data bit-by-bit display with a partial overlap in conjunction with the shift position in the stacking order of the lamps of the first group, the second lamp group and the lamp of the third group on the display screen, then

for repetitive display areas, each of which includes one lamp of the first group, one lamp of the second group and the third lamp group, located in one row or one column of the matrix lamps, the minimum number of logical pixels forming plane of the image data bit-by-bit display a square matrix, arbitrary components (considered as a random element of the set) the data region is equal to nine, and

a data region on the plane of the image data bit-by-bit display should partially overlap.

Seventh, because the control section performs data distribution" "the division plane data of the first group", "plane data of the second group" and "plane data of the third group" "on the plane of the image data bit-by-bit display" on many areas of data, where each of the data areas of the first group is composed of a set of data of the first group contained in logical pixels placed next to each other", "each of the data regions of the second group is composed of a set of data of the second group contained in logical pixels placed next to each other", "each of the data regions of the third group is composed of a set of data of the third group contained in logical pixels times imennyh next to each other", and

"the way in which on the plane of the image data bit-by-bit display in the fission process in many areas of data of the first group, many of the data fields of the second group and in many areas the data of the third group are respectively plane data of the first group, the plane of the second data group and the data plane of the third group, such that these data regions are mutually shifted in position in the plane of the image data bit-by-bit display with a partial overlap in conjunction with the shift position in the stacking order of the lamps of the first group, the second lamp group and the lamp of the third group on the display screen, then

for repetitive display areas, each of which includes four lamps arranged in two rows and two columns of a matrix of lamps, the minimum number of logical pixels forming plane of the image data bit-by-bit display a square matrix, arbitrary components (considered as a random element of the set) the data region is equal to four, and

a data region on the plane of the image data bit-by-bit display may overlap or not overlap.

Eighth, because the control section performs data distribution" "the division plane data is ervay group", "plane data of the second group" and "plane data of the third group" "on the plane of the image data bit-by-bit display" on many areas of data, where each of the data areas of the first group is composed of a set of data of the first group contained in logical pixels placed next to each other", "each of the data regions of the second group is composed of a set of data of the second group contained in logical pixels placed next to each other", "each of the data regions of the third group is composed of a set of data of the third group contained in logical pixels placed near with each other, and

"the way in which on the plane of the image data bit-by-bit display in the fission process in many areas of data of the first group, many of the data fields of the second group and in many areas the data of the third group are respectively plane data of the first group, the plane of the second data group and the data plane of the third group, such that these data regions are mutually shifted in position in the plane of the image data bit-by-bit display with a partial overlap in conjunction with the shift position in the stacking order of the lamps of the first group, the second lamp group and the lamp of the third group on the display screen, then

there are no such regular combinations of lamps forming a two-dimensional matrix, and such variants splits the display screen into separate non-overlapping repeating the display region, on the plane of the image data bit-by-bit display will not overlap the field data obtained in the preparation plane data of the first group, area data obtained in the preparation plane data of the second group, and area data obtained in the preparation plane data of the third group, and

there are no such regular combinations of lamps forming a two-dimensional matrix, and such variants splits the display screen into separate non-overlapping repeating the display region, on the plane of the image data bit-by-bit display will not overlap the field data obtained in the preparation plane data of the second group, area data obtained in the preparation plane data of the third group.

Ninth, because the term "lamp" is the only term used in the characteristics of the device, to indicate the types of light emitting cells, designed to emit light from a large number of which may be composed of dot matrix display screen, t is

this device cannot be attributed to a device for data representation multicolor image bitwise display on the dot matrix display screen, on which is placed in the regular combination of the light modulating cells of the three groups, which are designed to pass through the light respectively of the three primary colors or to reflect from light respectively of the three primary colors.

In the tenth, the claims this product contains the characteristics used to determine the order of selecting the data of the first, second and third groups included in logical pixels constituting arbitrary (considered as a random element of the set) the data area corresponding respectively to the lamp first, second or third group, and activation of this lamp first, second or third group according to the selected data, respectively, the first, second or third group, but

does not contain characteristics that describe the order in which the dot-matrix display screen, activate the lamps of the first, second and third groups corresponding to the different data regions on the plane of the image data bit-by-bit display.

Consider display device, the core of which is based on the method disclosed in the description of the patent of the Russian Federation No. 2249257 can be represented as consisting of a display module and control module, connected to the display module through the means of data transfer. Thus, the display module contains a section of the dot matrix display screen, which are uniformly placed lamps of the first group of lamps of the second group and the third lamp group, and the section activating circuit for activating individually referred to lamps of the first, second and third groups to emit light. And the control module contains a section storing the image data for storing the image data bit-by-bit display to be presented on the display screen, and the control section distribution of data for distribution and transfer of the image data memorized in the memorizing section of the image data, in the above-mentioned section of the trigger circuit. Therefore, features that characterize the lamp first, second and third groups, and the trigger circuit can be described as a display module, and signs, which are characterized by the partition storing data and control data distribution can be characterized by the control module.

However, the control section distribution of data, part of the question display device, it is not possible to divide the logical array of image pixels in the plane image data bit-by-bit display on many nepreryv the category of data regions, each of which mutually correspond directly to the lamp matrix display screen. In this display device, any two data region on the plane of the image data bit-by-bit display, which correspond to two adjacent lamp dot matrix display screen belonging to different groups of lamps, partially overlap, which leads to less accurate representation of the boundaries of large colored and achromatic components of the image rendered on the dot matrix display screen, as well as to the weakening of discernment small achromatic components of periodic structures that rendered color image and to reduce the amount of information about achromatic detail that rendered color image.

Furthermore, this device does not allow you to share multiple pixel lamp constituting the dot matrix display screen, part of the question display devices, many of pixel sets of lamps, each of which includes several adjacent each other pixel lamp dot matrix display screen and each of which mutually correspond logical pixel of the color image, which does not allow to represent data of a color image is agenia on the dot matrix display screen to use is the number of pixel lights, which exceeds the number of logical pixels of the color image.

The full-color display is also not possible to arbitrarily set the pixel sets of the lamps, the activation of which light emission can be started at the same time.

It should also be noted that the brightness of the image observed on the dot matrix display screen that is part of the considered display device, less the brightness of the image observed on the dot matrix display screen, which also includes the lamp of the fourth group, which when activated emit light achromatic color. Dot matrix display screen, part of the question display device, does not contain lamps of the fourth group. That's why we display device cannot be used to represent data of a color image on a dot matrix display screen, includes lamp of the fourth group, allowing to increase the brightness of the images presented on this dot matrix display screen.

The presence of the above disadvantages of the device in question

prevents the achievement of the technical result consists in the

view raster data of the color image is to be placed on the surface of the imaging device to represent raster data of the color image, formed by surface rendering of three species that are evenly distributed over the surface rendering this device

when any mutual arrangement of the surfaces of the imaging forming surface rendering this device

when any pre-defined ratio of surface areas of visualization, the corresponding logical pixels of this image, and the number of logical pixels of this image and

in accordance with any predefined order data representation of the image on the surface visualization of this device, which can only be implemented for surface rendering this device and according to which data of the image contained in logical pixels corresponding to the same arbitrary (considered as a random element of the set) surface rendering of this device, to be submitted on the surface visualization of this device at different points in time, one-to-one correspond to the data contained in logical pixels.

The presence of the above disadvantages of these units are also

prevents the achievement of the technical result consists in the

to provide the management of raster data of the color image on the surface of a rendering device for rendering the bitmap data of the color image, formed by surface rendering of the four species that are evenly distributed over the surface rendering this device

when any mutual arrangement of the surfaces of the imaging forming surface rendering this device

when any pre-defined ratio of surface areas of visualization, the corresponding logical pixels of this image, and the number of logical pixels of this image and

in accordance with any predefined order data representation of the image on the surface visualization of this device, which can only be implemented for surface rendering this device and according to which data of the image contained in logical pixels corresponding to the same arbitrary (considered as a random element of the set) surface rendering of this device, to be submitted on the surface visualization of this device at different points in time, one-to-one correspond to the data contained in logical pixels

and

increase the brightness of the color image visualized on the surface visualization of this device.

Based on the technical VZG the poisons, described above, the device is a prototype can also be characterized by the following features.

Display device,

contains a control module and a display module connected with the control module,

designed to represent the image data on the surface of a display module formed arranged in a predefined order of the parts of the surface of the imaging components of many sections of surface rendering, and

the control unit includes means for storing the image data, which are multi-color data and are in the plane of the image data logical pixels of the color image components of a set of logical pixels of the color image

each logical pixel of the color image is expressed by collecting data of the first group, the second data group and data of the third group, in characterizing the three-dimensional color space, the three normalized color coordinates respectively conditionally "first"conditionally "second" and conditionally "third" linearly independent of flowers,

the surface of the display module includes a surface rendering of the first group, the surface rendering of the second group and plots the behavior is rnost visualization of the third group, and

in a display module for arbitrary (considered as a random element of the set) surface rendering of the first, second or third group, part of the surface of the display module has a function of converting data, respectively, the first, second or third group in the luminous flux, respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group.

Disclosure of inventions

The first claimed invention is based on technical views, described above, and is a way of representing raster data of the color image on the surface visualization, consisting of sections of surface rendering of three types.

The first claimed invention is intended to solve the problem

expand the Arsenal of technical means of the known method (prototype)

in submitting the raster data of the color image on the surface of the imaging formed by surface rendering of three species that are evenly distributed over this surface visualization

when any mutual arrangement of surface patches visualization forming this surface visualization

any PR is varicella a ratio of surface areas of visualization, the corresponding logical pixels of this image, and the number of logical pixels of this image and

in accordance with any predefined order of data presentation of this image on this surface rendering, which can only be implemented for this surface visualization and according to which data of the image contained in logical pixels corresponding to the same arbitrary (considered as a random element of the set) to plot this surface visualization, to be submitted on this surface visualization at different points in time, one-to-one correspond to the data contained in logical pixels

and in the implementation of this problem can be obtained by the following technical result:

representation of raster data of the color image on the surface of the imaging formed by surface rendering of three species that are evenly distributed over this surface visualization

when any mutual arrangement of surface patches visualization forming this surface visualization

when any pre-defined ratio of surface areas of visualization, the corresponding logical pixels of this image, and the number is STV logical pixels of this image and

in accordance with any predefined order of data presentation of this image on this surface rendering, which can only be implemented for this surface visualization and according to which data of the image contained in logical pixels corresponding to the same arbitrary (considered as a random element of the set) to plot this surface visualization, to be submitted on this surface visualization at different points in time, one-to-one correspond to the data contained in logical pixels.

The technical result is achieved by the fact that

in the known invention "Method of data presentation multicolor image bitwise display on the dot matrix display screen, on which is placed the lamp of the three primary colors",

namely, that

the image data is present on the surface visualization, educated arranged in a predefined order of the parts of the surface of the imaging components of many sections of surface rendering, and

the image data are multi-color data and are in the plane of the image data logical pixels of the color image components of many logicism is x pixels of the color image

each logical pixel of the color image is expressed by collecting data of the first group, the second data group and data of the third group, in characterizing the three-dimensional color space, the three normalized color coordinates respectively conditionally "first"conditionally "second" and conditionally "third" linearly independent of flowers,

rendering surface includes a surface rendering of the first group, the surface rendering of the second group and the surface rendering of the third group, and

arbitrary (considered as a random element of the set) surface rendering of the first, second or third group is used for the visual representation on the surface of the imaging data, respectively, the first, second or third group, converted to luminous flux, respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group,

according to the first claimed invention

prior to the presentation of the image data on the surface rendering determine the control table describing the partitioning of a two-dimensional array of logical pixels of the color image and many surface areas provide the promotion respectively in the data area, components of the multiple data regions, and the parts of the surface of the imaging components of many areas surface areas of visualization, and

arbitrary (considered as a random element of the set) the data region is expressed in the form of a square matrix composed of one or multiple logical pixels of the color image are located next to each other in a two-dimensional array of logical pixels of the color image

the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, a pre-defined

arbitrary (considered as a random element of the set) the area of the surface sections visualization formed from one or more parts of the surface visualization, located next to each other within an imaginary square circumscribed around this area of the surface sections visualization

the parts of the surface visualization do not overlap,

the parts of the surface rendering and the centers of the imaginary squares described about these areas, surface areas of visualization, evenly distributed over the surface visualization

the number of surface patches provide the purpose, the components of an arbitrary (considered as a random element of the set) the area of the surface areas of visualization, pre-defined

each data region one-to-one corresponds to a region of the surface sections visualization

the order in which you placed in relation to each other in the plane of the image data of the geometric centers of the fields of data, one-to-one corresponding areas of the surface areas of visualization, coincides with the order in which you placed in relation to each other on the surface visualization of the geometrical centers of imaginary squares described about these areas, surface areas of visualization,

each logical pixel of the color image that constitutes arbitrary (considered as a random element of the set) of the data area that corresponds to each part of the surface of the visualization included in the field of surface areas of visualization, one-to-one corresponding to the data region,

each logical pixel of a color image is included in an arbitrary (considered as a random element of the set) of the data area that corresponds to each part of the surface of the visualization included in the region of the surface sections provide the purpose, one-to-one corresponding to the data region,

the management table contains the elements of the set of elements of the management table and located in one or more rows comprising multiple rows of the table control,

the number of elements of the management table, arbitrary components (considered as a random element of the set) row of the management table, a pre-defined

arbitrary (considered as a random element of the set) logical pixel color image included in the one or more areas of data corresponds to one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image is equal to the number of surface patches visualization corresponding to this logical pixel of the color image

element management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image corresponds to only one surface visualization corresponding to this logical pixel of the color image

arbitrary (considered UEMOA as a random element of the set) the surface area of visualization, included the parts of the surface visualization, matches one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization, is equal to the number of logical pixels of the color image corresponding to the surface area of visualization

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization corresponds to only one logical pixel of the color image corresponding to the surface area of visualization

the number of surface areas of visualization, the relevant elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is equal to the number of these elements of the management table,

elements of a management table comprising the set of elements of the management table are one or more fields of a management table comprising a set of fields of the control table,

the elements of control tables, arbitrary components (considered as a random element of the set) field control is her table, comprise one or more rows of a management table comprising a continuous sequence of rows in the driving table,

the number of elements of the management table, arbitrary components (considered as a random element of the set) field of the management table is equal to the number of surface patches visualization, forming the parts of the surface of the imaging components of many areas surface areas of visualization,

the number of fields of the management table is equal to the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, and

arbitrary (considered as a random element of the set) field of the management table includes only one member of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization included in the composition of the parts of the surface visualization;

in the process of providing image data to the surface visualization at high speed to form the data elements that comprise the set of data elements, and high-speed display these data elements on the surface visualization, and

each element of data is one-to-one corresponds to the element management table,

data elements that are one-to-one corresponding to the members of the management table, arbitrary components (considered as a random element of the set) line managing table form the data line, one-to-one corresponding to this row of the management table,

the order in which form the data elements constituting the data line, one-to-one corresponding to arbitrary (considered as a random element of the set) row of the control table that corresponds to the order in which the elements of the management table, one-to-one corresponding to these data elements are located in this row of the management table,

the order in which form the data line, forming multiple rows of data, and the order in which they display these rows of data on the surface visualization correspond to the order in which row of the management table, one-to-one corresponding to these rows of data are in the control table, and

the data elements that make up an arbitrary (considered as a random element of the set) line data, begin to display on the surface visualization at the same time;

in the process of forming a data item, one-to-one corresponding arbitrary and consider what we as a random element of the set) element management table, the corresponding surface area of visualization of the first, second or third group,

read data, respectively, the first, second and third groups included in the logical pixel of the color image corresponding to this element of the management table, and assigns the data of the first, second or third group this data item;

in the process of displaying on the surface of the imaging element data, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group,

transform data, respectively, the first, second or third group contained in this data element, the light flux respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group.

To obtain a technical result consists in the

view raster data of the color image on the surface visualization, formed by a large number of areas of the surface rendering of three species that are uniformly distributed over this surface and visualization components of the mosaic screen, divided by C is ecrivain triad, each of which includes a surface rendering of three species, located at the vertices of an imaginary isosceles triangle

the first invention of "the Way of the raster data of the color image on the surface visualization, consisting of sections of surface rendering of three types"

characterized in that

surface visualization components of the rendering surface, is formed on the surface visualization of multiple rows of surface areas of visualization, and

the spacing of the surfaces visualization in these lines the surfaces visualization equal step location on the surface rendering of these lines surface areas of visualization, and

surface visualization, forming on the surface rendering any two adjacent line sections of surface rendering, offset in these lines the surfaces of visualization in relation to each other and thus are in such an order that any part of these two neighboring lines of the surface areas of visualization of three neighboring land surface imaging, bordering each other on the principle of each other, are located on the surface visualization at the vertices of an imaginary isosceles triangle which include surface rendering of the first group, the surface area of visualization of the second group and the surface area of visualization of the third group.

Obtained by carrying out the first invention of the technical result, namely

representation of raster data of the color image on the surface visualization, formed by a large number of areas of the surface rendering of three species that are uniformly distributed over this surface and visualization components of the mosaic screen is divided into non-overlapping triads, each of which includes a surface rendering of three species, located at the vertices of an imaginary isosceles triangle

is due to the fact that

the image data is present on the surface visualization, educated arranged in a predefined order of the parts of the surface of the imaging components of many sections of surface rendering, and

the image data are multi-color data and are in the plane of the image data logical pixels of the color image components of a set of logical pixels of the color image

each logical pixel of the color image is expressed by collecting data of the first group, the second data group and data of the third group, in characterizing the three-dimensional color is produced by the wholesale space of three normalized color coordinates respectively conditionally "first", conventionally, the "second" and conditionally "third" linearly independent of flowers,

rendering surface includes a surface rendering of the first group, the surface rendering of the second group and the surface rendering of the third group, and

arbitrary (considered as a random element of the set) surface rendering of the first, second or third group is used for the visual representation on the surface of the imaging data, respectively, the first, second or third group, converted to luminous flux, respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group;

surface visualization components of the rendering surface, is formed on the surface visualization of multiple rows of surface areas of visualization, and

the spacing of the surfaces visualization in these lines the surfaces visualization equal step location on the surface rendering of these lines surface areas of visualization, and

surface visualization, forming on the surface rendering any two adjacent line sections of surface rendering, offset in these lines PL is in the surface of visualization in relation to each other and thus are located in this order, that any part of these two neighboring lines of the surface areas of visualization of three neighboring land surface imaging, bordering each other on the principle of each other, are located on the surface visualization at the vertices of an imaginary equilateral triangle and include surface rendering of the first group, the surface area of visualization of the second group and the surface area of visualization of the third group;

prior to the presentation of the image data on the surface rendering determine the control table describing the partitioning of a two-dimensional array of logical pixels of the color image and the set of surface patches visualization respectively on the field data comprising multiple data regions, and the parts of the surface of the imaging components of many areas surface areas of visualization, and

arbitrary (considered as a random element of the set) the data region is expressed in the form of a square matrix composed of one or multiple logical pixels of the color image are located next to each other in a two-dimensional array of logical pixels of the color image

the number of logical pixels of the color image components of arbitrary systems the controls as a random element of the set) the data area, pre-defined

arbitrary (considered as a random element of the set) the area of the surface sections visualization formed from one or more parts of the surface visualization, located next to each other within an imaginary square circumscribed around this area of the surface sections visualization

the parts of the surface visualization do not overlap,

the parts of the surface rendering and the centers of the imaginary squares described about these areas, surface areas of visualization, evenly distributed over the surface visualization

the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, pre-defined

each data region one-to-one corresponds to a region of the surface sections visualization

the order in which you placed in relation to each other in the plane of the image data of the geometric centers of the fields of data, one-to-one corresponding areas of the surface areas of visualization, coincides with the order in which you placed in relation to each other on the surface visualization of the geometrical centers of imaginary squares, described what about these areas, surface areas of visualization,

each logical pixel of the color image that constitutes arbitrary (considered as a random element of the set) of the data area that corresponds to each part of the surface of the visualization included in the field of surface areas of visualization, one-to-one corresponding to the data region,

each logical pixel of a color image is included in an arbitrary (considered as a random element of the set) of the data area that corresponds to each portion of the surface rendering, which is part of the field surface areas of visualization, one-to-one corresponding to the data region,

the management table contains the elements of the set of elements of the management table and located in one or more rows comprising multiple rows of the table control,

the number of elements of the management table, arbitrary components (considered as a random element of the set) row of the management table, a pre-defined

arbitrary (considered as a random element of the set) logical pixel color image included in the one or more areas of data corresponds to one or more elements of the management table,

the number is the primary objective of the elements of the management table, the corresponding arbitrary (considered as a random element of the set) logical pixel of the color image is equal to the number of surface patches visualization corresponding to this logical pixel of the color image

element management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image corresponds to only one surface visualization corresponding to this logical pixel of the color image

arbitrary (considered as a random element of the set) the surface area of visualization, which is part of the field surface areas of visualization, matches one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization, is equal to the number of logical pixels of the color image corresponding to the surface area of visualization

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization corresponds to only one logical pixel color from the images, corresponding to this surface visualization

the number of surface areas of visualization, the relevant elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is equal to the number of these elements of the management table,

elements of a management table comprising the set of elements of the management table are one or more fields of a management table comprising a set of fields of the control table,

the elements of control tables, arbitrary components (considered as a random element of the set) field of the management table, comprise one or more rows of a management table comprising a continuous sequence of rows in the driving table,

the number of elements of the management table, arbitrary components (considered as a random element of the set) field of the management table is equal to the number of surface patches visualization, forming the parts of the surface of the imaging components of many areas surface areas of visualization,

the number of fields of the management table is equal to the number of logical pixels of the color image components of an arbitrary (considered as a random e is ementa set) of the data area, and

arbitrary (considered as a random element of the set) field of the management table includes only one member of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization included in the composition of the parts of the surface visualization;

in the process of providing image data to the surface visualization at high speed to form the data elements that comprise the set of data elements, and high-speed display these data elements on the surface visualization, and

each data element of the one-to-one corresponds to the element management table,

data elements that are one-to-one corresponding to the members of the management table, arbitrary components (considered as a random element of the set) line managing table form the data line, one-to-one corresponding to this row of the management table,

the order in which form the data elements constituting the data line, one-to-one corresponding to arbitrary (considered as a random element of the set) row of the control table that corresponds to the order in which the elements of the management table, one-to-one ratio is eastwoodiae these data items, located in this row of the management table,

the order in which form the data line, forming multiple rows of data, and the order in which they display these rows of data on the surface visualization correspond to the order in which row of the management table, one-to-one corresponding to these rows of data are in the control table, and

the data elements that make up an arbitrary (considered as a random element of the set) line data, begin to display on the surface visualization at the same time;

in the process of forming a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group,

read data, respectively, the first, second and third groups included in the logical pixel of the color image corresponding to this element of the management table, and assigns the data of the first, second or third group this data item;

in the process of displaying on the surface of the imaging element data, one-to-one corresponding to arbitrary (considered as a random element of the set) item opravlyaushi the table, the corresponding surface area of visualization of the first, second or third group,

transform data, respectively, the first, second or third group contained in this data element, the light flux respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group.

To obtain a technical result consists in the

view raster data of the color image on the surface visualization, formed by a large number of areas of the surface rendering of three species that are uniformly distributed over this surface and visualization components of the matrix screen, in which the spacing of the surfaces visualization in the rows of the screen equal to the spacing of the surfaces visualization in the columns of the screen

the first invention of "the Way of the raster data of the color image on the surface visualization, consisting of sections of surface rendering of three types"

characterized in that

surface visualization components of the rendering surface, is formed on the surface visualization of two-dimensional matrix surface areas of visualization, and

the spacing of the surfaces visualization the AI in the rows of this two-dimensional matrix surface areas of visualization equal to the spacing of the surfaces visualization in the columns of this two-dimensional matrix plots of surface rendering.

Obtained by carrying out the first of the claimed invention technical result, namely

representation of raster data of the color image on the surface visualization, formed by a large number of areas of the surface rendering of three species that are uniformly distributed over this surface and visualization components of the matrix screen, in which the spacing of the surfaces visualization in the rows of the screen equal to the spacing of the surfaces visualization in the columns of the screen

is due to the fact that

the image data is present on the surface visualization, educated arranged in a predefined order of the parts of the surface of the imaging components of many sections of surface rendering, and

the image data are multi-color data and are in the plane of the image data logical pixels of the color image components of a set of logical pixels of the color image

each logical pixel of the color image is expressed by collecting data of the first group, the second data group and data of the third group, in characterizing the three-dimensional color space, the three normalized color coordinates respectively conditionally "first"conditionally "second" and conditionally the third linearly independent of flowers,

rendering surface includes a surface rendering of the first group, the surface rendering of the second group and the surface rendering of the third group, and

arbitrary (considered as a random element of the set) surface rendering of the first, second or third group is used for the visual representation on the surface of the imaging data, respectively, the first, second or third group, converted to luminous flux, respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group;

surface visualization components of the rendering surface, is formed on the surface visualization of two-dimensional matrix surface areas of visualization, and

the spacing of the surfaces of visualization in the lines of this two-dimensional matrix surface areas of visualization equal to the spacing of the surfaces visualization in the columns of this two-dimensional matrix surface areas of visualization;

prior to the presentation of the image data on the surface rendering determine the control table describing the partitioning of a two-dimensional array of logical pixels of a color image is Oia and many surface areas of visualization, respectively, in the data area, components of the multiple data regions, and the parts of the surface of the imaging components of many areas surface areas of visualization, and

arbitrary (considered as a random element of the set) the data region is expressed in the form of a square matrix composed of one or multiple logical pixels of the color image are located next to each other in a two-dimensional array of logical pixels of the color image

the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, a pre-defined

arbitrary (considered as a random element of the set) the area of the surface sections visualization formed from one or more parts of the surface visualization, located next to each other within an imaginary square circumscribed around this area of the surface sections visualization

the parts of the surface visualization do not overlap,

the parts of the surface rendering and the centers of the imaginary squares described about these areas, surface areas of visualization, evenly distributed over the surface visualization

the number of surface patches provide the purpose, the components of an arbitrary (considered as a random element of the set) the area of the surface areas of visualization, pre-defined

each data region one-to-one corresponds to a region of the surface sections visualization

the order in which you placed in relation to each other in the plane of the image data of the geometric centers of the fields of data, one-to-one corresponding areas of the surface areas of visualization, coincides with the order in which you placed in relation to each other on the surface visualization of the geometrical centers of imaginary squares described about these areas, surface areas of visualization,

each logical pixel of the color image that constitutes arbitrary (considered as a random element of the set) of the data area that corresponds to each part of the surface of the visualization included in the field of surface areas of visualization, one-to-one corresponding to the data region,

each logical pixel of a color image is included in an arbitrary (considered as a random element of the set) of the data area that corresponds to each part of the surface of the visualization included in the region of the surface sections provide the purpose, one-to-one corresponding to the data region,

the management table contains the elements of the set of elements of the management table and located in one or more rows comprising multiple rows of the table control,

the number of elements of the management table, arbitrary components (considered as a random element of the set) row of the management table, a pre-defined

arbitrary (considered as a random element of the set) logical pixel color image included in the one or more areas of data corresponds to one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image is equal to the number of surface patches visualization corresponding to this logical pixel of the color image

element management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image corresponds to only one surface visualization corresponding to this logical pixel of the color image

arbitrary (considered UEMOA as a random element of the set) the surface area of visualization, included the parts of the surface visualization, matches one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization, is equal to the number of logical pixels of the color image corresponding to the surface area of visualization

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization corresponds to only one logical pixel of the color image corresponding to the surface area of visualization

the number of surface areas of visualization, the relevant elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is equal to the number of these elements of the management table,

elements of a management table comprising the set of elements of the management table are one or more fields of a management table comprising a set of fields of the control table,

the elements of control tables, arbitrary components (considered as a random element of the set) field control is her table, comprise one or more rows of a management table comprising a continuous sequence of rows in the driving table,

the number of elements of the management table, arbitrary components (considered as a random element of the set) field of the management table is equal to the number of surface patches visualization, forming the parts of the surface of the imaging components of many areas surface areas of visualization,

the number of fields of the management table is equal to the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, and

arbitrary (considered as a random element of the set) field of the management table includes only one member of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization included in the composition of the parts of the surface visualization;

in the process of providing image data to the surface visualization at high speed to form the data elements that comprise the set of data elements, and high-speed display these data elements on the surface visualization, and

each element of data is one-to-one corresponds to the element management table,

data elements that are one-to-one corresponding to the members of the management table, arbitrary components (considered as a random element of the set) line managing table form the data line, one-to-one corresponding to this row of the management table,

the order in which form the data elements constituting the data line, one-to-one corresponding to arbitrary (considered as a random element of the set) row of the control table that corresponds to the order in which the elements of the management table, one-to-one corresponding to these data elements are located in this row of the management table,

the order in which form the data line, forming multiple rows of data, and the order in which they display these rows of data on the surface visualization correspond to the order in which row of the management table, one-to-one corresponding to these rows of data are in the control table, and

the data elements that make up an arbitrary (considered as a random element of the set) line data, begin to display on the surface visualization at the same time;

in the process of forming a data item, one-to-one corresponding arbitrary and consider what we as a random element of the set) element management table, the corresponding surface area of visualization of the first, second or third group,

read data, respectively, the first, second and third groups included in the logical pixel of the color image corresponding to this element of the management table, and assigns the data of the first, second or third group this data item;

in the process of displaying on the surface of the imaging element data, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group,

transform data, respectively, the first, second or third group contained in this data element, the light flux respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group.

To obtain a technical result consists in the

the more accurate representation of the boundaries of large colored and achromatic components of a color image rendered on the surface visualization, formed by surface rendering of three species that are evenly distributed over this surface visualization is AI

strengthening distinguish small achromatic components of periodic structures of this color image and

the increasing number of information about achromatic details of this color image,

the first invention of "the Way of the raster data of the color image on the surface visualization, consisting of sections of surface rendering of three types"

characterized in that

control table describes the partitioning of a two-dimensional array of logical pixels of the color image and many surface areas of visualization, respectively, on many fields and on many areas surface areas of visualization, in which

a data region on the plane of image data do not overlap,

the number of data regions, one-to-one corresponding areas of the surface areas of visualization, is equal to the highest possible values for these color image and surface visualization, and

the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, is equal to the highest possible values for this pre-defined number of fields of data.

Obtained by carrying out the first image is placed technical result namely

a more accurate representation of the boundaries of large colored and achromatic components of a color image rendered on the surface visualization, formed by surface rendering of three species that are evenly distributed over this surface visualization

strengthening distinguish small achromatic components of periodic structures of this color image and

the increasing number of information about achromatic details of this color image,

is due to the fact that

the image data is present on the surface visualization, educated arranged in a predefined order of the parts of the surface of the imaging components of many sections of surface rendering, and

the image data are multi-color data and are in the plane of the image data logical pixels of the color image components of a set of logical pixels of the color image

each logical pixel of the color image is expressed by collecting data of the first group, the second data group and data of the third group, in characterizing the three-dimensional color space, the three normalized color coordinates respectively conditionally "first"conditionally "second" and conditionally "third" are linearly independent is independent of flowers,

rendering surface includes a surface rendering of the first group, the surface rendering of the second group and the surface rendering of the third group, and

arbitrary (considered as a random element of the set) surface rendering of the first, second or third group is used for the visual representation on the surface of the imaging data, respectively, the first, second or third group, converted to luminous flux, respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group;

prior to the presentation of the image data on the surface rendering determine the control table describing the partitioning of a two-dimensional array of logical pixels of the color image and the set of surface patches visualization respectively on the field data comprising multiple data regions, and the parts of the surface of the imaging components of many areas surface areas of visualization, and

arbitrary (considered as a random element of the set) the data region is expressed in the form of a square matrix composed of one or multiple logical is exela color image, located next to each other in a two-dimensional array of logical pixels of the color image

the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, a pre-defined

arbitrary (considered as a random element of the set) the area of the surface sections visualization formed from one or more parts of the surface visualization, located next to each other within an imaginary square circumscribed around this area of the surface sections visualization

the parts of the surface visualization do not overlap,

the parts of the surface rendering and the centers of the imaginary squares described about these areas, surface areas of visualization, evenly distributed over the surface visualization

the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, pre-defined

each data region one-to-one corresponds to a region of the surface sections visualization

the order in which you placed in relation to each other in the plane of the image data of the geometric t is entry data regions, one-to-one corresponding areas of the surface areas of visualization, coincides with the order in which you placed in relation to each other on the surface visualization of the geometrical centers of imaginary squares described about these areas, surface areas of visualization,

each logical pixel of the color image that constitutes arbitrary (considered as a random element of the set) of the data area that corresponds to each part of the surface of the visualization included in the field of surface areas of visualization, one-to-one corresponding to the data region,

each logical pixel of a color image is included in an arbitrary (considered as a random element of the set) of the data area that corresponds to each portion of the surface rendering, which is part of the field surface areas of visualization, one-to-one corresponding to the data region,

the management table contains the elements of the set of elements of the management table and located in one or more rows comprising multiple rows of the table control,

the number of elements of the management table, arbitrary components (considered as a random element of the set) the line is sending a table pre-defined

arbitrary (considered as a random element of the set) logical pixel color image included in the one or more areas of data corresponds to one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image is equal to the number of surface patches visualization corresponding to this logical pixel of the color image

element management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image corresponds to only one surface visualization corresponding to this logical pixel of the color image

arbitrary (considered as a random element of the set) the surface area of visualization, which is part of the field surface areas of visualization, matches one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization, is equal to the number of logicheskaya color image, corresponding to the surface area of visualization

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization corresponds to only one logical pixel of the color image corresponding to the surface area of visualization

the number of surface areas of visualization, the relevant elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is equal to the number of these elements of the management table,

elements of a management table comprising the set of elements of the management table are one or more fields of a management table comprising a set of fields of the control table,

the elements of control tables, arbitrary components (considered as a random element of the set) field of the management table, comprise one or more rows of a management table comprising a continuous sequence of rows in the driving table,

the number of elements of the management table, arbitrary components (considered as a random element of the set) field of the management table is equal to the number of surface patches visualization, the image of the affected region surface areas of visualization, components of many areas surface areas of visualization,

the number of fields of the management table is equal to the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, and

arbitrary (considered as a random element of the set) field of the management table includes only one member of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization included in the composition of the parts of the surface visualization;

control table describes the partitioning of a two-dimensional array of logical pixels of the color image and many surface areas of visualization, respectively, on many fields and on many areas surface areas of visualization, in which

a data region on the plane of image data do not overlap,

the number of data regions, one-to-one corresponding areas of the surface areas of visualization, is equal to the highest possible values for these color image and surface visualization, and

the number of surface patches visualization, arbitrary components (considered as occasionally the th element of many) area surface areas of visualization, is equal to the highest possible values for this pre-defined number of fields of data;

in the process of providing image data to the surface visualization at high speed to form the data elements that comprise the set of data elements, and high-speed display these data elements on the surface visualization, and

each data element of the one-to-one corresponds to the element management table,

data elements that are one-to-one corresponding to the members of the management table, arbitrary components (considered as a random element of the set) line managing table form the data line, one-to-one corresponding to this row of the management table,

the order in which form the data elements constituting the data line, one-to-one corresponding to arbitrary (considered as a random element of the set) row of the control table that corresponds to the order in which the elements of the management table, one-to-one corresponding to these data elements are located in this row of the management table,

the order in which form the data line, forming multiple rows of data, and the order in which they display these rows of data on the surface visualization is AI, correspond to the order in which row of the management table, one-to-one corresponding to these rows of data are in the control table, and

the data elements that make up an arbitrary (considered as a random element of the set) line data, begin to display on the surface visualization at the same time;

in the process of forming a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group,

read data, respectively, the first, second and third groups included in the logical pixel of the color image corresponding to this element of the management table, and assigns the data of the first, second or third group this data item;

in the process of displaying on the surface of the imaging element data, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group,

transform data, respectively, the first, second or third group contained in this data element, the luminous flux respectively conditionally "first", conventionally, the "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group.

Second, the claimed invention is based on technical views, described above, and is a way of visualization of raster data of the color image.

Second, the claimed invention is intended to solve the problem

expand the Arsenal of technical means of the known method (prototype)

in submitting the raster data of the color image on the surface of the imaging formed by surface rendering of the four species that are evenly distributed over this surface visualization

when any mutual arrangement of surface patches visualization forming this surface visualization

when any pre-defined ratio of surface areas of visualization, the corresponding logical pixels of this image, and the number of logical pixels of this image and

in accordance with any predefined order of data presentation of this image on this surface rendering, which can only be implemented for this surface visualization and according to which data of the image contained in logical pixels with the corresponding same arbitrary (considered as a random element of the set) to plot this surface visualization to be submitted on this surface visualization at different points in time, one-to-one correspond to the data contained in logical pixels

and

to improve the brightness of a color image rendered on this surface visualization

and in the implementation of this problem can be obtained by the following technical result:

representation of raster data of the color image on the surface of the imaging formed by surface rendering of the four species that are evenly distributed over this surface visualization

when any mutual arrangement of surface patches visualization forming this surface visualization

when any pre-defined ratio of surface areas of visualization, the corresponding logical pixels of this image, and the number of logical pixels of this image and

in accordance with any predefined order of data presentation of this image on this surface rendering, which can only be implemented for this surface visualization and according to which data of the image contained in logical pixels corresponding to the same arbitrary (considered as a random e is ementa many) to plot this surface visualization to be submitted on this surface visualization at different points in time, one-to-one correspond to the data contained in logical pixels

and

increasing the brightness of the color image rendered on this surface rendering.

The technical result is achieved by the fact that

in the known invention "Method of data presentation multicolor image bitwise display on the dot matrix display screen, on which is placed the lamp of the three primary colors",

namely, that

the image data is present on the surface visualization, educated arranged in a predefined order of the parts of the surface of the imaging components of many sections of surface rendering, and

the image data are multi-color data and are in the plane of the image data logical pixels of the color image components of a set of logical pixels of the color image

each logical pixel of the color image is expressed by collecting data of the first group, the second data group and data of the third group, in characterizing the three-dimensional color space, the three normalized color coordinates respectively conditionally "first"conditionally "second" and the criminal "third" linearly independent of flowers,

rendering surface includes a surface rendering of the first group, the surface rendering of the second group and the surface rendering of the third group, and

arbitrary (considered as a random element of the set) surface rendering of the first, second or third group is used for the visual representation on the surface of the imaging data, respectively, the first, second or third group, converted to luminous flux, respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group,

according to the second claimed invention

prior to the presentation of the image data on the surface visualization specify the algorithm for computing the data of the fourth group, in characterizing the three-dimensional color space of any of the three normalized color coordinates of the achromatic color based on the data of the first, second and third groups;

surface visualization also includes a surface rendering of the fourth group, and

arbitrary (considered as a random element of the set) surface rendering of the fourth group are used to visually depict what Alenia on the surface of the imaging data of the fourth group, converted to luminous flux achromatic color cast from this part of the surface rendering of the fourth group;

prior to the presentation of the image data on the surface rendering determine the control table describing the partitioning of a two-dimensional array of logical pixels of the color image and the set of surface patches visualization respectively on the field data comprising multiple data regions, and the parts of the surface of the imaging components of many areas surface areas of visualization, and

arbitrary (considered as a random element of the set) the data region is expressed in the form of a square matrix composed of one or multiple logical pixels of the color image are located next to each other in a two-dimensional array of logical pixels of the color image

the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, a pre-defined

arbitrary (considered as a random element of the set) the area of the surface sections visualization formed from one or more parts of the surface visualization, located next to each other is the inside of an imaginary square, described about this area of the surface sections visualization

the parts of the surface visualization do not overlap,

the parts of the surface rendering and the centers of the imaginary squares described about these areas, surface areas of visualization, evenly distributed over the surface visualization

the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, pre-defined

each data region one-to-one corresponds to a region of the surface sections visualization

the order in which you placed in relation to each other in the plane of the image data of the geometric centers of the fields of data, one-to-one corresponding areas of the surface areas of visualization, coincides with the order in which you placed in relation to each other on the surface visualization of the geometrical centers of imaginary squares described about these areas, surface areas of visualization,

each logical pixel of the color image that constitutes arbitrary (considered as a random element of the set) of the data area that corresponds to each portion of the surface visualization, shodashi the composition of the parts of the surface visualization one-to-one corresponding to the data region,

each logical pixel of a color image is included in an arbitrary (considered as a random element of the set) of the data area that corresponds to each portion of the surface rendering, which is part of the field surface areas of visualization, one-to-one corresponding to the data region,

the management table contains the elements of the set of elements of the management table and located in one or more rows comprising multiple rows of the table control,

the number of elements of the management table, arbitrary components (considered as a random element of the set) row of the management table, a pre-defined

arbitrary (considered as a random element of the set) logical pixel color image included in the one or more areas of data corresponds to one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image is equal to the number of surface patches visualization corresponding to this logical pixel color from the images,

element management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image corresponds to only one surface visualization corresponding to this logical pixel of the color image

arbitrary (considered as a random element of the set) the surface area of visualization, which is part of the field surface areas of visualization, matches one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization, is equal to the number of logical pixels of the color image corresponding to the surface area of visualization

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization corresponds to only one logical pixel of the color image corresponding to the surface area of visualization

the number of surface areas of visualization, the relevant elements of the management table, arbitrary components (considered as a random element of the set) the line control table, equal to the number of these elements of the management table,

elements of a management table comprising the set of elements of the management table are one or more fields of a management table comprising a set of fields of the control table,

the elements of control tables, arbitrary components (considered as a random element of the set) field of the management table, comprise one or more rows of a management table comprising a continuous sequence of rows in the driving table,

the number of elements of the management table, arbitrary components (considered as a random element of the set) field of the management table is equal to the number of surface patches visualization, forming the parts of the surface of the imaging components of many areas surface areas of visualization,

the number of fields of the management table is equal to the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, and

arbitrary (considered as a random element of the set) field of the management table includes only one member of the management table corresponding to arbitrary (considered as a random ele is enta many) the surface area of visualization, included the parts of the surface visualization;

in the process of providing image data to the surface visualization at high speed to form the data elements that comprise the set of data elements, and high-speed display these data elements on the surface visualization, and

each data element of the one-to-one corresponds to the element management table,

data elements that are one-to-one corresponding to the members of the management table, arbitrary components (considered as a random element of the set) line managing table form the data line, one-to-one corresponding to this row of the management table,

the order in which form the data elements constituting the data line, one-to-one corresponding to arbitrary (considered as a random element of the set) row of the control table that corresponds to the order in which the elements of the management table, one-to-one corresponding to these data elements are located in this row of the management table,

the order in which form the data line, forming multiple rows of data, and the order in which they display these rows of data on the surface visualization correspond to the order in which rows UE is alausa table one-to-one corresponding to these rows of data are in the control table, and

the data elements that make up an arbitrary (considered as a random element of the set) line data, begin to display on the surface visualization at the same time;

in the process of forming a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group,

read data, respectively, the first, second and third groups included in the logical pixel of the color image corresponding to this element of the management table, and assigns the data of the first, second or third group this data item;

in the process of forming a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the portion of the surface rendering of the fourth group,

first read the data of the first, second and third groups that comprise the logical pixel of the color image corresponding to this element of the management table, and based on these few data first, the Torah and the third groups calculate the data of the fourth group,

and then assign these calculated data of the fourth group this data item, and

in the process of calculating the data of the fourth group on the basis of these read out data of the first, second and third groups and in accordance with the aforementioned algorithm for calculating the data of the fourth group

first compare these readings first, second and third groups,

and then set the value data of the fourth group is equal to the value of these read data of the first, second or third group, not exceeding the values of these read data, respectively the second, third or first group and not exceeding the values of these read data, respectively, the third, first or second group;

in the process of displaying on the surface of the imaging element data, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second, third or fourth group,

transform data, respectively, first, second, third or fourth group contained in this data element, the light flux respectively conditionally "first"conditionally "second"conditionally "third" or achromatic color, directed from this plot surface is rendering the first the second, third or fourth group.

To obtain a technical result consists in the

view raster data of the color image on the surface visualization, formed by a large number of surface patches visualization of the four types that are uniformly distributed over this surface and visualization components of the matrix screen, in which the spacing of the surfaces visualization in the rows of the screen equal to the spacing of the surfaces visualization in the columns of the screen

the second invention "Method of visualization of raster data of the color image"

characterized in that

surface visualization components of the rendering surface, is formed on the surface visualization of two-dimensional matrix surface areas of visualization, and

the spacing of the surfaces of visualization in the lines of this two-dimensional matrix surface areas of visualization equal to the spacing of the surfaces visualization in the columns of this two-dimensional matrix plots of surface rendering.

Obtained by carrying out the second of the claimed invention technical result, namely

representation of raster data of the color image on the surface visualization, formed by a large number of areas surfaces the tee visualization of four kinds, uniformly distributed over this surface and visualization components of the matrix screen, in which the spacing of the surfaces visualization in the rows of the screen equal to the spacing of the surfaces visualization in the columns of the screen

is due to the fact that

the image data is present on the surface visualization, educated arranged in a predefined order of the parts of the surface of the imaging components of many sections of surface rendering, and

the image data are multi-color data and are in the plane of the image data logical pixels of the color image components of a set of logical pixels of the color image

each logical pixel of the color image is expressed by collecting data of the first group, the second data group and data of the third group, in characterizing the three-dimensional color space, the three normalized color coordinates respectively conditionally "first"conditionally "second" and conditionally "third" linearly independent of flowers,

rendering surface includes a surface rendering of the first group, the surface rendering of the second group, the surface rendering of the third group and surface visualisation and the fourth group,

prior to the presentation of the image data on the surface visualization specify the algorithm for computing the data of the fourth group, in characterizing the three-dimensional color space of any of the three normalized color coordinates of the achromatic color based on the data of the first, second and third groups, and

arbitrary (considered as a random element of the set) surface rendering of the first, second, third or fourth group are used for the visual representation on the surface of the imaging data, respectively, first, second, third or fourth group, converted to luminous flux, respectively conditionally "first"conditionally "second"conditionally "third" or achromatic color, directed from this part of the surface rendering of the first, second, third or fourth group;

surface visualization components of the rendering surface, is formed on the surface visualization of two-dimensional matrix surface areas of visualization, and

the spacing of the surfaces of visualization in the lines of this two-dimensional matrix surface areas of visualization equal to the spacing of the surfaces visualization in the columns of this two-dimensional matrix surface areas of visualization;

before the show Yes the data image on the surface rendering determine the control table, describing the partitioning of a two-dimensional array of logical pixels of the color image and the set of surface patches visualization respectively on the field data comprising multiple data regions, and the parts of the surface of the imaging components of many areas surface areas of visualization, and

arbitrary (considered as a random element of the set) the data region is expressed in the form of a square matrix composed of one or multiple logical pixels of the color image are located next to each other in a two-dimensional array of logical pixels of the color image

the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, a pre-defined

arbitrary (considered as a random element of the set) the area of the surface sections visualization formed from one or more parts of the surface visualization, located next to each other within an imaginary square circumscribed around this area of the surface sections visualization

the parts of the surface visualization do not overlap,

the parts of the surface rendering and the centers of the imaginary squares described about these areas, surface areas of visualization, evenly distributed on the surface of the imaging

the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, pre-defined

each data region one-to-one corresponds to a region of the surface sections visualization

the order in which you placed in relation to each other in the plane of the image data of the geometric centers of the fields of data, one-to-one corresponding areas of the surface areas of visualization, coincides with the order in which you placed in relation to each other on the surface visualization of the geometrical centers of imaginary squares described about these areas, surface areas of visualization,

each logical pixel of the color image that constitutes arbitrary (considered as a random element of the set) of the data area that corresponds to each part of the surface of the visualization included in the field of surface areas of visualization, one-to-one corresponding to the data region,

each logical pixel of a color image is included in an arbitrary (considered as a random element of the set) the field data, matched with the edge of each surface visualization being a part of the field surface areas of visualization, one-to-one corresponding to the data region,

the management table contains the elements of the set of elements of the management table and located in one or more rows comprising multiple rows of the table control,

the number of elements of the management table, arbitrary components (considered as a random element of the set) row of the management table, a pre-defined

arbitrary (considered as a random element of the set) logical pixel color image included in the one or more areas of data corresponds to one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image is equal to the number of surface patches visualization corresponding to this logical pixel of the color image

element management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image corresponds to only one surface visualization that corresponds to this logicist the th pixel of the color image

arbitrary (considered as a random element of the set) the surface area of visualization, which is part of the field surface areas of visualization, matches one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization, is equal to the number of logical pixels of the color image corresponding to the surface area of visualization

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization corresponds to only one logical pixel of the color image corresponding to the surface area of visualization

the number of surface areas of visualization, the relevant elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is equal to the number of these elements of the management table,

elements of a management table comprising the set of elements of the management table are one or more fields of a management table comprising a set of fields of the control table,

the control elements is her table, the components of an arbitrary (considered as a random element of the set) field of the management table, comprise one or more rows of a management table comprising a continuous sequence of rows in the driving table,

the number of elements of the management table, arbitrary components (considered as a random element of the set) field of the management table is equal to the number of surface patches visualization, forming the parts of the surface of the imaging components of many areas surface areas of visualization,

the number of fields of the management table is equal to the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, and

arbitrary (considered as a random element of the set) field of the management table includes only one member of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization included in the composition of the parts of the surface visualization;

in the process of providing image data to the surface visualization at high speed to form the data elements that comprise the set of data elements, and the high speed display these data elements on the surface of the imaging and

each data element of the one-to-one corresponds to the element management table,

data elements that are one-to-one corresponding to the members of the management table, arbitrary components (considered as a random element of the set) line managing table form the data line, one-to-one corresponding to this row of the management table,

the order in which form the data elements constituting the data line, one-to-one corresponding to arbitrary (considered as a random element of the set) row of the control table that corresponds to the order in which the elements of the management table, one-to-one corresponding to these data elements are located in this row of the management table,

the order in which form the data line, forming multiple rows of data, and the order in which they display these rows of data on the surface visualization correspond to the order in which row of the management table, one-to-one corresponding to these rows of data are in the control table, and

the data elements that make up an arbitrary (considered as a random element of the set) line data, begin to display on the surface visualization at the same time;

in the process of the formation of a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group,

read data, respectively, the first, second and third groups included in the logical pixel of the color image corresponding to this element of the management table, and assigns the data of the first, second or third group this data item;

in the process of forming a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the portion of the surface rendering of the fourth group,

first read the data of the first, second and third groups that comprise the logical pixel of the color image corresponding to this element of the management table, and on the basis of these read out data of the first, second and third groups calculate the data of the fourth group,

and then assign these calculated data of the fourth group this data item, and

in the process of calculating the data of the fourth group on the basis of these read out data of the first, second and third groups and in accordance with the aforementioned algorithm for computing Dan who's the fourth group

first compare these readings first, second and third groups,

and then set the value data of the fourth group is equal to the value of these read data of the first, second or third group, not exceeding the values of these read data, respectively the second, third or first group and not exceeding the values of these read data, respectively, the third, first or second group;

in the process of displaying on the surface of the imaging element data, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second, third or fourth group,

transform data, respectively, first, second, third or fourth group contained in this data element, the light flux respectively conditionally "first"conditionally "second"conditionally "third" or achromatic color, directed from this part of the surface rendering of the first, second, third or fourth group.

To obtain a technical result consists in the

the more accurate representation of the boundaries of large colored and achromatic components of a color image rendered on the surface rendering images is authorized by surface rendering of four kinds, uniformly distributed over this surface visualization

strengthening distinguish small achromatic components of periodic structures of this color image and

the increasing number of information about achromatic details of this color image,

the second invention "Method of visualization of raster data of the color image"

characterized in that

control table describes the partitioning of a two-dimensional array of logical pixels of the color image and many surface areas of visualization, respectively, on many fields and on many areas surface areas of visualization, in which

a data region on the plane of image data do not overlap,

the number of data regions, one-to-one corresponding areas of the surface areas of visualization, is equal to the highest possible values for these color image and surface visualization, and

the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, is equal to the highest possible values for this pre-defined number of fields of data.

Obtained by carrying out the second invention of the technical result is at, namely

a more accurate representation of the boundaries of large colored and achromatic components of a color image rendered on the surface visualization, formed by surface rendering of the four species that are evenly distributed over this surface visualization

strengthening distinguish small achromatic components of periodic structures of this color image and

the increasing number of information about achromatic details of this color image,

is due to the fact that

the image data is present on the surface visualization, educated arranged in a predefined order of the parts of the surface of the imaging components of many sections of surface rendering, and

the image data are multi-color data and are in the plane of the image data logical pixels of the color image components of a set of logical pixels of the color image

each logical pixel of the color image is expressed by collecting data of the first group, the second data group and data of the third group, in characterizing the three-dimensional color space, the three normalized color coordinates respectively conditionally "first"conditionally "second" and conditionally "third" linearly zavisimyh flowers,

rendering surface includes a surface rendering of the first group, the surface rendering of the second group, the surface rendering of the third group and the surface rendering of the fourth group,

prior to the presentation of the image data on the surface visualization specify the algorithm for computing the data of the fourth group, in characterizing the three-dimensional color space of any of the three normalized color coordinates of the achromatic color based on the data of the first, second and third groups, and

arbitrary (considered as a random element of the set) surface rendering of the first, second, third or fourth group are used for the visual representation on the surface of the imaging data, respectively, first, second, third or fourth group, converted to luminous flux, respectively conditionally "first"conditionally "second"conditionally "third" or achromatic color, directed from this part of the surface rendering of the first, second, third or fourth group;

prior to the presentation of the image data on the surface rendering determine the control table describing the partitioning of a two-dimensional array of logical pixels of the color image and the many areas in which ernesti visualization, respectively, in the data area, components of the multiple data regions, and the parts of the surface of the imaging components of many areas surface areas of visualization, and

arbitrary (considered as a random element of the set) the data region is expressed in the form of a square matrix composed of one or multiple logical pixels of the color image are located next to each other in a two-dimensional array of logical pixels of the color image

the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, a pre-defined

arbitrary (considered as a random element of the set) the area of the surface sections visualization formed from one or more parts of the surface visualization, located next to each other within an imaginary square circumscribed around this area of the surface sections visualization

the parts of the surface visualization do not overlap,

the parts of the surface rendering and the centers of the imaginary squares described about these areas, surface areas of visualization, evenly distributed over the surface visualization

the number of surface patches provide the purpose, the components of an arbitrary (considered as a random element of the set) the area of the surface areas of visualization, pre-defined

each data region one-to-one corresponds to a region of the surface sections visualization

the order in which you placed in relation to each other in the plane of the image data of the geometric centers of the fields of data, one-to-one corresponding areas of the surface areas of visualization, coincides with the order in which you placed in relation to each other on the surface visualization of the geometrical centers of imaginary squares described about these areas, surface areas of visualization,

each logical pixel of the color image that constitutes arbitrary (considered as a random element of the set) of the data area that corresponds to each part of the surface of the visualization included in the field of surface areas of visualization, one-to-one corresponding to the data region,

each logical pixel of a color image is included in an arbitrary (considered as a random element of the set) of the data area that corresponds to each part of the surface of the visualization included in the region of the surface sections provide the purpose, one-to-one corresponding to the data region,

the management table contains the elements of the set of elements of the management table and located in one or more rows comprising multiple rows of the table control,

the number of elements of the management table, arbitrary components (considered as a random element of the set) row of the management table, a pre-defined

arbitrary (considered as a random element of the set) logical pixel color image included in the one or more areas of data corresponds to one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image is equal to the number of surface patches visualization corresponding to this logical pixel of the color image

element management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image corresponds to only one surface visualization corresponding to this logical pixel of the color image

arbitrary (considered UEMOA as a random element of the set) the surface area of visualization, included the parts of the surface visualization, matches one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization, is equal to the number of logical pixels of the color image corresponding to the surface area of visualization

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization corresponds to only one logical pixel of the color image corresponding to the surface area of visualization

the number of surface areas of visualization, the relevant elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is equal to the number of these elements of the management table,

elements of a management table comprising the set of elements of the management table are one or more fields of a management table comprising a set of fields of the control table,

the elements of control tables, arbitrary components (considered as a random element of the set) field control is her table, comprise one or more rows of a management table comprising a continuous sequence of rows in the driving table,

the number of elements of the management table, arbitrary components (considered as a random element of the set) field of the management table is equal to the number of surface patches visualization, forming the parts of the surface of the imaging components of many areas surface areas of visualization,

the number of fields of the management table is equal to the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, and

arbitrary (considered as a random element of the set) field of the management table includes only one member of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization included in the composition of the parts of the surface visualization;

control table describes the partitioning of a two-dimensional array of logical pixels of the color image and many surface areas of visualization, respectively, on many fields and on many areas surface areas of visualization, in which

is blasti data on the plane of image data do not overlap,

the number of data regions, one-to-one corresponding areas of the surface areas of visualization, is equal to the highest possible values for these color image and surface visualization, and

the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, is equal to the highest possible values for this pre-defined number of fields of data;

in the process of providing image data to the surface visualization at high speed to form the data elements that comprise the set of data elements, and high-speed display these data elements on the surface visualization, and

each data element of the one-to-one corresponds to the element management table,

data elements that are one-to-one corresponding to the members of the management table, arbitrary components (considered as a random element of the set) line managing table form the data line, one-to-one corresponding to this row of the management table,

the order in which form the data elements constituting the data line, one-to-one corresponding to arbitrary (discussed in image quality is as a random element of the set) row of the management table, corresponds to the order in which the elements of the management table, one-to-one corresponding to these data elements are located in this row of the management table,

the order in which form the data line, forming multiple rows of data, and the order in which they display these rows of data on the surface visualization correspond to the order in which row of the management table, one-to-one corresponding to these rows of data are in the control table, and

the data elements that make up an arbitrary (considered as a random element of the set) line data, begin to display on the surface visualization at the same time;

in the process of forming a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group,

read data, respectively, the first, second and third groups included in the logical pixel of the color image corresponding to this element of the management table, and assigns the data of the first, second or third group this data item;

in the process of forming a data item, one-to-one corresponding to p is visualname (considered as a random element of the set) element management table, the corresponding portion of the surface rendering of the fourth group,

first read the data of the first, second and third groups that comprise the logical pixel of the color image corresponding to this element of the management table, and on the basis of these read out data of the first, second and third groups calculate the data of the fourth group,

and then assign these calculated data of the fourth group this data item, and

in the process of calculating the data of the fourth group on the basis of these read out data of the first, second and third groups and in accordance with the aforementioned algorithm for calculating the data of the fourth group

first compare these readings first, second and third groups,

and then set the value data of the fourth group is equal to the value of these read data of the first, second or third group, not exceeding the values of these read data, respectively the second, third or first group and not exceeding the values of these read data, respectively, the third, first or second group;

in the process of displaying on the surface of the imaging element data, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the portion of the surface is a surface rendering of the first, the second, third or fourth group,

transform data, respectively, first, second, third or fourth group contained in this data element, the light flux respectively conditionally "first"conditionally "second"conditionally "third" or achromatic color, directed from this part of the surface rendering of the first, second, third or fourth group.

Third, the claimed invention is based on technical views, described above, and is a device to implement the method of representation of raster data of the color image on the surface visualization, consisting of sections of surface rendering of three types.

Third, the claimed invention is intended to solve the problem

expand the Arsenal of technical means of the known device (prototype)

in submitting the raster data of the color image on the surface visualization of this device, formed by surface rendering of three species that are evenly distributed over the surface rendering this device

when any mutual arrangement of the surfaces of the imaging forming surface rendering this device

when any pre-defined ratio of surface areas of visualization, with testwuide logical pixels of this image, and the number of logical pixels of this image and

in accordance with any predefined order data representation of the image on the surface visualization of this device, which can only be implemented for surface rendering this device and according to which data of the image contained in logical pixels corresponding to the same arbitrary (considered as a random element of the set) surface rendering of this device, to be submitted on the surface visualization of this device at different points in time, one-to-one correspond to the data contained in logical pixels

and in the implementation of this problem can be obtained by the following technical result:

representation of raster data of the color image on the surface of the imaging device to represent raster data of the color image formed by surface rendering of three species that are evenly distributed over the surface rendering this device

when any mutual arrangement of the surfaces of the imaging forming surface rendering this device

when any pre-defined ratio of the number of sites n is the surface visualization the corresponding logical pixels of this image, and the number of logical pixels of this image and

in accordance with any predefined order data representation of the image on the surface visualization of this device, which can only be implemented for surface rendering this device and according to which data of the image contained in logical pixels corresponding to the same arbitrary (considered as a random element of the set) surface rendering of this device, to be submitted on the surface visualization of this device at different points in time, one-to-one correspond to the data contained in logical pixels.

The technical result is achieved by the fact that

in the famous invention of the "Display device"

contains a control module and a display module connected with the control module,

designed to represent the image data on the surface of a display module formed arranged in a predefined order of the parts of the surface of the imaging components of many sections of surface rendering, and

the control module includes means for zapomina the Oia image data, which are the multicolor data and are in the plane of the image data logical pixels of the color image components of a set of logical pixels of the color image

each logical pixel of the color image is expressed by collecting data of the first group, the second data group and data of the third group, in characterizing the three-dimensional color space, the three normalized color coordinates respectively conditionally "first"conditionally "second" and conditionally "third" linearly independent of flowers,

the surface of the display module includes a surface rendering of the first group, the surface rendering of the second group and the surface rendering of the third group, and

in a display module for arbitrary (considered as a random element of the set) surface rendering of the first, second or third group, part of the surface of the display module has a function of converting data, respectively, the first, second or third group in the luminous flux, respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group,

according to the third declared and the attainment

the control module has a function of forming data items, one-to-one corresponding to the predefined elements of the management table,

in the display module has a function to display the above data elements on the surface of the display module, and

mentioned management table describes the breakdown of a two-dimensional array of logical pixels of the color image and the set of surface patches visualization respectively on the field data comprising multiple data regions, and the parts of the surface of the imaging components of many areas surface areas of visualization, and

arbitrary (considered as a random element of the set) the data region is expressed in the form of a square matrix composed of one or multiple logical pixels of the color image are located next to each other in a two-dimensional array of logical pixels of the color image

the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, a pre-defined

arbitrary (considered as a random element of the set) plots the surface rendering is formed of the one or more parts of the surface visualization located next to each other within an imaginary square circumscribed around this area of the surface sections visualization

the parts of the surface visualization do not overlap,

the parts of the surface rendering and the centers of the imaginary squares described about these areas, surface areas of visualization, evenly distributed over the surface of the display module,

the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, pre-defined

each data region one-to-one corresponds to a region of the surface sections visualization

the order in which you placed in relation to each other in the plane of the image data of the geometric centers of the fields of data, one-to-one corresponding areas of the surface areas of visualization, coincides with the order in which you placed in relation to each other on the surface of a display module of the geometric centers of imaginary squares described about these areas, surface areas of visualization,

each logical pixel of the color image that constitutes arbitrary (considered as lucianovolume set) of the data area, match each part of the surface of the visualization included in the field of surface areas of visualization, one-to-one corresponding to the data region,

each logical pixel of a color image is included in an arbitrary (considered as a random element of the set) of the data area that corresponds to each portion of the surface rendering, which is part of the field surface areas of visualization, one-to-one corresponding to the data region,

the management table contains the elements of the set of elements of the management table and located in one or more rows comprising multiple rows of the table control,

the number of elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is predefined and does not exceed the largest number of data elements, the mapping of which is on the surface of the display module, the display module allows you to start at the same time,

arbitrary (considered as a random element of the set) logical pixel color image included in the one or more areas of data corresponds to one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image is equal to the number of surface patches visualization corresponding to this logical pixel of the color image

element management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image corresponds to only one surface visualization corresponding to this logical pixel of the color image

arbitrary (considered as a random element of the set) the surface area of visualization, which is part of the field surface areas of visualization, matches one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization, is equal to the number of logical pixels of the color image corresponding to the surface area of visualization

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization that meet the t only one logical pixel of the color image, corresponding to this surface visualization

the number of surface areas of visualization, the relevant elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is equal to the number of these elements of the management table,

elements of a management table comprising the set of elements of the management table are one or more fields of a management table comprising a set of fields of the control table,

the elements of control tables, arbitrary components (considered as a random element of the set) field of the management table, comprise one or more rows of a management table comprising a continuous sequence of rows in the driving table,

the number of elements of the management table, arbitrary components (considered as a random element of the set) field of the management table is equal to the number of surface patches visualization, forming the parts of the surface of the imaging components of many areas surface areas of visualization,

the number of fields of the management table is equal to the number of logical pixels of the color image components of an arbitrary (considered as a random e is ementa set) of the data area, and

arbitrary (considered as a random element of the set) field of the management table includes only one member of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization included in the composition of the parts of the surface visualization;

in the process of providing image data on the surface of the display module

the control module performs the function of forming the data elements consisting in formation at high speed of data elements constituting the multiple data elements, and

the display module performs the function of displaying on the surface of a display module of the data elements that displays at high speed of data elements generated control module, on the surface of the display module, and

each data element of the one-to-one corresponds to the element management table,

data elements that are one-to-one corresponding to the members of the management table, arbitrary components (considered as a random element of the set) line managing table form the data line, one-to-one corresponding to the row control the gates of the table

the order in which form the data elements constituting the data line, one-to-one corresponding to arbitrary (considered as a random element of the set) row of the control table that corresponds to the order in which the elements of the management table, one-to-one corresponding to these data elements are located in this row of the management table,

the order in which form the data line, forming multiple rows of data, and the order in which they display these rows of data on the surface of the display module correspond to the order in which row of the management table, one-to-one corresponding to these rows of data are in the control table, and

the data elements that make up an arbitrary (considered as a random element of the set) line data, begin to display on the surface visualization at the same time;

in the process of forming a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group,

the control module reads from the means for storing data of the image data respectively of the first, second and the third group, included in the logical pixel of the color image corresponding to this element of the management table, and assigns the data of the first, second or third group this data item;

in the process of display element data, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group, on the surface of the display module

the display module performs the function of converting data, respectively, the first, second or third group in the luminous flux, respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group, and

when performing this function, the display module converts the data respectively the first, second or third group contained in this data element, the light flux respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group.

To obtain a technical result consists in the

view raster data of the color image is Oia on the surface of the display module, formed by a large number of areas of the surface rendering of three types, evenly distributed over the surface rendering of the display module and the components of the mosaic screen is divided into non-overlapping triads, each of which includes a surface rendering of three species, located at the vertices of an imaginary isosceles triangle

the third invention of the Device for implementing the method of presenting the raster data of the color image on the surface visualization, consisting of sections of surface rendering of three types"

characterized in that

surface visualization that make up the surface of the display module, is formed on the surface of the display module multiple rows of surface areas of visualization, and

the spacing of the surfaces visualization in these lines the surfaces visualization equal step location on the surface of a display module of these lines surface areas of visualization, and

surface visualization, forming on the surface of the display module any two adjacent line sections of surface rendering, offset in these lines the surfaces of visualization in relation to each other such Abrazame are located in this order, that any part of these two neighboring lines of the surface areas of visualization of three neighboring land surface imaging, bordering each other on the principle of each other, are located on the surface of the display module at the vertices of an imaginary equilateral triangle and include surface rendering of the first group, the surface area of visualization of the second group and the surface area of visualization of the third group.

Obtained by carrying out the third invention, the technical result, namely

representation of raster data of the color image on the surface of a display module formed by a large number of areas of the surface rendering of three types, evenly distributed over the surface rendering of the display module and the components of the mosaic screen is divided into non-overlapping triads, each of which includes a surface rendering of three species, located at the vertices of an imaginary isosceles triangle

is due to the fact that

the device for implementing the method of presenting the raster data of the color image on the surface visualization, consisting of sections of surface rendering of three kinds,

includes control module and akran the second module, connected with the control module,

is intended to represent the image data on the surface of a display module formed arranged in a predefined order of the parts of the surface of the imaging components of many sections of surface rendering, and

the control unit includes means for storing the image data, which are multi-color data and are in the plane of the image data logical pixels of the color image components of a set of logical pixels of the color image

each logical pixel of the color image is expressed by collecting data of the first group, the second data group and data of the third group, in characterizing the three-dimensional color space, the three normalized color coordinates respectively conditionally "first"conditionally "second" and conditionally "third" linearly independent of flowers,

the surface of the display module includes a surface rendering of the first group, the surface rendering of the second group and the surface rendering of the third group, and

in a display module for arbitrary (considered as a random element of the set) surface rendering of the first, second or t is ETA group, part of the surface of the display module has a function of converting data, respectively, the first, second or third group in the luminous flux, respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group;

surface visualization that make up the surface of the display module, is formed on the surface of the display module multiple rows of surface areas of visualization, and

the spacing of the surfaces visualization in these lines the surfaces visualization equal step location on the surface of a display module of these lines surface areas of visualization, and

surface visualization, forming on the surface of the display module any two adjacent line sections of surface rendering, offset in these lines the surfaces of visualization in relation to each other and thus are in such an order that any part of these two neighboring lines of the surface areas of visualization of three neighboring land surface imaging, bordering each other on the principle of each other, are located on the surface of visas is the implementation of the display module at the vertices of an imaginary equilateral triangle and include surface rendering of the first group, the surface area of visualization of the second group and the surface area of visualization of the third group;

the control module has a function of forming data items, one-to-one corresponding to the predefined elements of the management table,

in the display module has a function to display the above data elements on the surface of the display module, and

mentioned management table describes the breakdown of a two-dimensional array of logical pixels of the color image and the set of surface patches visualization respectively on the field data comprising multiple data regions, and the parts of the surface of the imaging components of many areas surface areas of visualization, and

arbitrary (considered as a random element of the set) the data region is expressed in the form of a square matrix composed of one or multiple logical pixels of the color image are located next to each other in a two-dimensional array of logical pixels of the color image

the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, a pre-defined

arbitrary systems the controls as a random element of the set) the area of the surface sections visualization formed from one or more parts of the surface visualization located next to each other within an imaginary square circumscribed around this area of the surface sections visualization

the parts of the surface visualization do not overlap,

the parts of the surface rendering and the centers of the imaginary squares described about these areas, surface areas of visualization, evenly distributed over the surface of the display module,

the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, pre-defined

each data region one-to-one corresponds to a region of the surface sections visualization

the order in which you placed in relation to each other in the plane of the image data of the geometric centers of the fields of data, one-to-one corresponding areas of the surface areas of visualization, coincides with the order in which you placed in relation to each other on the surface of a display module of the geometric centers of imaginary squares described about these areas, surface areas of visualization,

each logical pixel of the color image that constitutes arbitrary (considered as lucianovolume set) of the data area, match each part of the surface of the visualization included in the field of surface areas of visualization, one-to-one corresponding to the data region,

each logical pixel of a color image is included in an arbitrary (considered as a random element of the set) of the data area that corresponds to each portion of the surface rendering, which is part of the field surface areas of visualization, one-to-one corresponding to the data region,

the management table contains the elements of the set of elements of the management table and located in one or more rows comprising multiple rows of the table control,

the number of elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is predefined and does not exceed the largest number of data elements, the mapping of which is on the surface of the display module, the display module allows you to start at the same time,

arbitrary (considered as a random element of the set) logical pixel color image included in the one or more areas of data corresponds to one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image is equal to the number of surface patches visualization corresponding to this logical pixel of the color image

element management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image corresponds to only one surface visualization corresponding to this logical pixel of the color image

arbitrary (considered as a random element of the set) the surface area of visualization, which is part of the field surface areas of visualization, matches one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization, is equal to the number of logical pixels of the color image corresponding to the surface area of visualization

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization that meet the t only one logical pixel of the color image, corresponding to this surface visualization

the number of surface areas of visualization, the relevant elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is equal to the number of these elements of the management table,

elements of a management table comprising the set of elements of the management table are one or more fields of a management table comprising a set of fields of the control table,

the elements of control tables, arbitrary components (considered as a random element of the set) field of the management table, comprise one or more rows of a management table comprising a continuous sequence of rows in the driving table,

the number of elements of the management table, arbitrary components (considered as a random element of the set) field of the management table is equal to the number of surface patches visualization, forming the parts of the surface of the imaging components of many areas surface areas of visualization,

the number of fields of the management table is equal to the number of logical pixels of the color image components of an arbitrary (considered as a random e is ementa set) of the data area, and

arbitrary (considered as a random element of the set) field of the management table includes only one member of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization included in the composition of the parts of the surface visualization;

in the process of providing image data on the surface of the display module

the control module performs the function of forming the data elements consisting in formation at high speed of data elements constituting the multiple data elements, and

the display module performs the function of displaying on the surface of a display module of the data elements that displays at high speed of data elements generated control module, on the surface of the display module, and

each data element of the one-to-one corresponds to the element management table,

data elements that are one-to-one corresponding to the members of the management table, arbitrary components (considered as a random element of the set) line managing table form the data line, one-to-one corresponding to the row control the gates of the table

the order in which form the data elements constituting the data line, one-to-one corresponding to arbitrary (considered as a random element of the set) row of the control table that corresponds to the order in which the elements of the management table, one-to-one corresponding to these data elements are located in this row of the management table,

the order in which form the data line, forming multiple rows of data, and the order in which they display these rows of data on the surface of the display module correspond to the order in which row of the management table, one-to-one corresponding to these rows of data are in the control table, and

the data elements that make up an arbitrary (considered as a random element of the set) line data, begin to display on the surface visualization at the same time;

in the process of forming a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group,

the control module reads from the means for storing data of the image data respectively of the first, second and the third group, included in the logical pixel of the color image corresponding to this element of the management table, and assigns the data of the first, second or third group this data item;

in the process of display element data, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group, on the surface of the display module

the display module performs the function of converting data, respectively, the first, second or third group in the luminous flux, respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group, and

when performing this function, the display module converts the data respectively the first, second or third group contained in this data element, the light flux respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group.

To obtain a technical result consists in the

view raster data of the color image is Oia on the surface of the display module, formed by a large number of areas of the surface rendering of three types, evenly distributed over the surface rendering of the display module and the components of the matrix screen, in which the spacing of the surfaces visualization in the rows of the screen equal to the spacing of the surfaces visualization in the columns of the screen

the third invention of the Device for implementing the method of presenting the raster data of the color image on the surface visualization, consisting of sections of surface rendering of three types"

characterized in that

surface visualization that make up the surface of the display module, is formed on the surface of a display module of a two-dimensional matrix surface areas of visualization, and

the spacing of the surfaces of visualization in the lines of this two-dimensional matrix surface areas of visualization equal to the spacing of the surfaces visualization in the columns of this two-dimensional matrix plots of surface rendering.

Obtained by carrying out a third of the claimed invention technical result, namely

representation of raster data of the color image on the surface of a display module formed by a large number of areas surfaces the tee visualization of three kinds, evenly distributed over the surface rendering of the display module and the components of the matrix screen, in which the spacing of the surfaces visualization in the rows of the screen equal to the spacing of the surfaces visualization in the columns of the screen

is due to the fact that

the device for implementing the method of presenting the raster data of the color image on the surface visualization, consisting of sections of surface rendering of three kinds,

comprises a control module and a display module connected with the control module,

is intended to represent the image data on the surface of a display module formed arranged in a predefined order of the parts of the surface of the imaging components of many sections of surface rendering, and

the control unit includes means for storing the image data, which are multi-color data and are in the plane of the image data logical pixels of the color image components of a set of logical pixels of the color image

each logical pixel of the color image is expressed by collecting data of the first group, the second data group and data of the third group, in characterizing three-dimensional the m color space three normalized color coordinates respectively conditionally "first", conventionally, the "second" and conditionally "third" linearly independent of flowers,

the surface of the display module includes a surface rendering of the first group, the surface rendering of the second group and the surface rendering of the third group, and

in a display module for arbitrary (considered as a random element of the set) surface rendering of the first, second or third group, part of the surface of the display module has a function of converting data, respectively, the first, second or third group in the luminous flux, respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group;

surface visualization that make up the surface of the display module, is formed on the surface of a display module of a two-dimensional matrix surface areas of visualization, and

the spacing of the surfaces of visualization in the lines of this two-dimensional matrix surface areas of visualization equal to the spacing of the surfaces visualization in the columns of this two-dimensional matrix surface areas of visualization;

the control module implements the function of forming data elements, one-to-one corresponding to the predefined elements of the management table,

in the display module has a function to display the above data elements on the surface of the display module, and

mentioned management table describes the breakdown of a two-dimensional array of logical pixels of the color image and the set of surface patches visualization respectively on the field data comprising multiple data regions, and the parts of the surface of the imaging components of many areas surface areas of visualization, and

arbitrary (considered as a random element of the set) the data region is expressed in the form of a square matrix composed of one or multiple logical pixels of the color image are located next to each other in a two-dimensional array of logical pixels of the color image

the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, a pre-defined

arbitrary (considered as a random element of the set) the area of the surface sections visualization formed from one or more parts of the surface visualization, raspolozhennymi with each other within an imaginary square, described about this area of the surface sections visualization

the parts of the surface visualization do not overlap,

the parts of the surface rendering and the centers of the imaginary squares described about these areas, surface areas of visualization, evenly distributed over the surface of the display module,

the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, pre-defined

each data region one-to-one corresponds to a region of the surface sections visualization

the order in which you placed in relation to each other in the plane of the image data of the geometric centers of the fields of data, one-to-one corresponding areas of the surface areas of visualization, coincides with the order in which you placed in relation to each other on the surface of a display module of the geometric centers of imaginary squares described about these areas, surface areas of visualization,

each logical pixel of the color image that constitutes arbitrary (considered as a random element of the set) of the data area that corresponds to each segment is poverhnosti visualization, part of the field surface areas of visualization, one-to-one corresponding to the data region,

each logical pixel of a color image is included in an arbitrary (considered as a random element of the set) of the data area that corresponds to each portion of the surface rendering, which is part of the field surface areas of visualization, one-to-one corresponding to the data region,

the management table contains the elements of the set of elements of the management table and located in one or more rows comprising multiple rows of the table control,

the number of elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is predefined and does not exceed the largest number of data elements, the mapping of which is on the surface of the display module, the display module allows you to start at the same time,

arbitrary (considered as a random element of the set) logical pixel color image included in the one or more areas of data corresponds to one or more elements of the management table,

the number of elements of the management table, matched with the existing arbitrary (considered as a random element of the set) logical pixel of the color image, equal to the number of surface patches visualization corresponding to this logical pixel of the color image

element management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image corresponds to only one surface visualization corresponding to this logical pixel of the color image

arbitrary (considered as a random element of the set) the surface area of visualization, which is part of the field surface areas of visualization, matches one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization, is equal to the number of logical pixels of the color image corresponding to the surface area of visualization

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization corresponds to only one logical pixel of the color image corresponding to the surface area of visualization

the number of sections of surface rendering, suitable for the elements of control table the components of an arbitrary (considered as a random element of the set) row of the management table is equal to the number of these elements of the management table,

elements of a management table comprising the set of elements of the management table are one or more fields of a management table comprising a set of fields of the control table,

the elements of control tables, arbitrary components (considered as a random element of the set) field of the management table, comprise one or more rows of a management table comprising a continuous sequence of rows in the driving table,

the number of elements of the management table, arbitrary components (considered as a random element of the set) field of the management table is equal to the number of surface patches visualization, forming the parts of the surface of the imaging components of many areas surface areas of visualization,

the number of fields of the management table is equal to the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, and

arbitrary (considered as a random element of the set) field of the management table includes all the things which are one element of the management table, the corresponding arbitrary (considered as a random element of the set) the surface area of the visualization included in the composition of the parts of the surface visualization;

in the process of providing image data on the surface of the display module

the control module performs the function of forming the data elements consisting in formation at high speed of data elements constituting the multiple data elements, and

the display module performs the function of displaying on the surface of a display module of the data elements that displays at high speed of data elements generated control module, on the surface of the display module, and

each data element of the one-to-one corresponds to the element management table,

data elements that are one-to-one corresponding to the members of the management table, arbitrary components (considered as a random element of the set) line managing table form the data line, one-to-one corresponding to this row of the management table,

the order in which form the data elements constituting the data line, one-to-one corresponding to arbitrary (under consideration is the quality of the random element of the set) row of the management table, corresponds to the order in which the elements of the management table, one-to-one corresponding to these data elements are located in this row of the management table,

the order in which form the data line, forming multiple rows of data, and the order in which they display these rows of data on the surface of the display module correspond to the order in which row of the management table, one-to-one corresponding to these rows of data are in the control table, and

the data elements that make up an arbitrary (considered as a random element of the set) line data, begin to display on the surface visualization at the same time;

in the process of forming a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group,

the control module reads from the means for storing data of the image data respectively of the first, second and third groups included in the logical pixel of the color image corresponding to this element of the management table, and assigns the data of the first, second or third group this data item;/p>

in the process of display element data, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group, on the surface of the display module

the display module performs the function of converting data, respectively, the first, second or third group in the luminous flux, respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group, and

when performing this function, the display module converts the data respectively the first, second or third group contained in this data element, the light flux respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group.

To obtain a technical result consists in the

the more accurate representation of the boundaries of large colored and achromatic components of a color image rendered on the surface of a display module formed by surface rendering of three types, evenly races is a certain surface rendering of the display module,

strengthening distinguish small achromatic components of periodic structures of this color image and

the increasing number of information about achromatic details of this color image,

the third invention of the Device for implementing the method of presenting the raster data of the color image on the surface visualization, consisting of sections of surface rendering of three types"

characterized in that

control table describes the partitioning of a two-dimensional array of logical pixels of the color image and many surface areas of visualization, respectively, on many fields and on many areas surface areas of visualization, in which

a data region on the plane of image data do not overlap,

the number of data regions, one-to-one corresponding areas of the surface areas of visualization, is equal to the highest possible values for these color image and the surface of the display module, and

the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, is equal to the highest possible values for this pre-defined number of fields of data.

Obtained by carrying out the third invention, the technical result, namely

a more accurate representation of the boundaries of large colored and achromatic components of a color image rendered on the surface of a display module formed by surface rendering of three species that are evenly distributed over the surface rendering of the display module,

strengthening distinguish small achromatic components of periodic structures of this color image and

the increasing number of information about achromatic details of this color image,

is due to the fact that

the device for implementing the method of presenting the raster data of the color image on the surface visualization, consisting of sections of surface rendering of three kinds,

comprises a control module and a display module connected with the control module,

is intended to represent the image data on the surface of a display module formed arranged in a predefined order of the parts of the surface of the imaging components of many sections of surface rendering, and

the control unit includes means for storing the image data, which are multi-color data and are in the plane of the image data logical pixels CEE is the main image, components of a set of logical pixels of the color image

each logical pixel of the color image is expressed by collecting data of the first group, the second data group and data of the third group, in characterizing the three-dimensional color space, the three normalized color coordinates respectively conditionally "first"conditionally "second" and conditionally "third" linearly independent of flowers,

the surface of the display module includes a surface rendering of the first group, the surface rendering of the second group and the surface rendering of the third group, and

in a display module for arbitrary (considered as a random element of the set) surface rendering of the first, second or third group, part of the surface of the display module has a function of converting data, respectively, the first, second or third group in the luminous flux, respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group;

the control module has a function of forming data items, one-to-one corresponding to the elements of the predefined driving the y table,

in the display module has a function to display the above data elements on the surface of the display module, and

mentioned management table describes the breakdown of a two-dimensional array of logical pixels of the color image and the set of surface patches visualization respectively on the field data comprising multiple data regions, and the parts of the surface of the imaging components of many areas surface areas of visualization, and

arbitrary (considered as a random element of the set) the data region is expressed in the form of a square matrix composed of one or multiple logical pixels of the color image are located next to each other in a two-dimensional array of logical pixels of the color image

the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, a pre-defined

arbitrary (considered as a random element of the set) the area of the surface sections visualization formed from one or more parts of the surface visualization, located next to each other within an imaginary square circumscribed around this area plots a surface is STI visualization

the parts of the surface visualization do not overlap,

the parts of the surface rendering and the centers of the imaginary squares described about these areas, surface areas of visualization, evenly distributed over the surface of the display module,

the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, pre-defined

each data region one-to-one corresponds to a region of the surface sections visualization

the order in which you placed in relation to each other in the plane of the image data of the geometric centers of the fields of data, one-to-one corresponding areas of the surface areas of visualization, coincides with the order in which you placed in relation to each other on the surface of a display module of the geometric centers of imaginary squares described about these areas, surface areas of visualization,

each logical pixel of the color image that constitutes arbitrary (considered as a random element of the set) of the data area that corresponds to each portion of the surface rendering, which is part of the field plots on top of the spine imaging one-to-one corresponding to the data region,

each logical pixel of a color image is included in an arbitrary (considered as a random element of the set) of the data area that corresponds to each portion of the surface rendering, which is part of the field surface areas of visualization, one-to-one corresponding to the data region,

the management table contains the elements of the set of elements of the management table and located in one or more rows comprising multiple rows of the table control,

the number of elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is predefined and does not exceed the largest number of data elements, the mapping of which is on the surface of the display module, the display module allows you to start at the same time,

arbitrary (considered as a random element of the set) logical pixel color image included in the one or more areas of data corresponds to one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as slouching the element sets the logical pixel of the color image, equal to the number of surface patches visualization corresponding to this logical pixel of the color image

element management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image corresponds to only one surface visualization corresponding to this logical pixel of the color image

arbitrary (considered as a random element of the set) the surface area of visualization, which is part of the field surface areas of visualization, matches one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization, is equal to the number of logical pixels of the color image corresponding to the surface area of visualization

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization corresponds to only one logical pixel of the color image corresponding to the surface area of visualization

the number of sections of surface rendering, suitable for the elements of control table the components of an arbitrary (considered as a random element of the set) row of the management table is equal to the number of these elements of the management table,

elements of a management table comprising the set of elements of the management table are one or more fields of a management table comprising a set of fields of the control table,

the elements of control tables, arbitrary components (considered as a random element of the set) field of the management table, comprise one or more rows of a management table comprising a continuous sequence of rows in the driving table,

the number of elements of the management table, arbitrary components (considered as a random element of the set) field of the management table is equal to the number of surface patches visualization, forming the parts of the surface of the imaging components of many areas surface areas of visualization,

the number of fields of the management table is equal to the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, and

arbitrary (considered as a random element of the set) field of the management table includes all the things which are one element of the management table, the corresponding arbitrary (considered as a random element of the set) the surface area of the visualization included in the composition of the parts of the surface visualization;

control table describes the partitioning of a two-dimensional array of logical pixels of the color image and many surface areas of visualization, respectively, on many fields and on many areas surface areas of visualization, in which

a data region on the plane of image data do not overlap,

the number of data regions, one-to-one corresponding areas of the surface areas of visualization, is equal to the highest possible values for these color image and the surface of the display module, and

the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, is equal to the highest possible values for this pre-defined number of fields of data;

in the process of providing image data on the surface of the display module

the control module performs the function of forming the data elements consisting in formation at high speed elements of the data, the components of the multiple data elements, and

the display module performs the function of displaying on the surface of a display module of the data elements that displays at high speed of data elements generated control module, on the surface of the display module, and

each data element of the one-to-one corresponds to the element management table,

data elements that are one-to-one corresponding to the members of the management table, arbitrary components (considered as a random element of the set) line managing table form the data line, one-to-one corresponding to this row of the management table,

the order in which form the data elements constituting the data line, one-to-one corresponding to arbitrary (considered as a random element of the set) row of the control table that corresponds to the order in which the elements of the management table, one-to-one corresponding to these data elements are located in this row of the management table,

the order in which form the data line, forming multiple rows of data, and the order in which they display these rows of data on the surface of the display module, match the yadku, which row of the management table, one-to-one corresponding to these rows of data are in the control table, and

the data elements that make up an arbitrary (considered as a random element of the set) line data, begin to display on the surface visualization at the same time;

in the process of forming a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group,

the control module reads from the means for storing data of the image data respectively of the first, second and third groups included in the logical pixel of the color image corresponding to this element of the management table, and assigns the data of the first, second or third group this data item;

in the process of display element data, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group, on the surface of the display module

the display module performs the function pre is obrazovaniya data, respectively, the first, the second or third group in the luminous flux, respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group, and

when performing this function, the display module converts the data respectively the first, second or third group contained in this data element, the light flux respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group.

To obtain a technical result consists in the

memorizing a display module of the data elements included in an arbitrary (considered as a random element of the set) rows of data, prior to the display of these data elements on the surface of the display module,

and

memorizing the display module complete line of the control table that allows the display module to start the display of data elements that make up the last saved display module data line,

and

storage control module management table describing the partitioning of a two-dimensional array of logical pixels of the color image to be presented to N. the surface of the display module, and many areas of the surface of the imaging components of the surface of the display module, respectively, on many fields and on many areas surface areas of visualization,

the third invention of the Device for implementing the method of presenting the raster data of the color image on the surface visualization, consisting of sections of surface rendering of three types"

characterized in that

each logical pixel image color one-to-one corresponds to the address of the logical pixel of the color image, characterizing the location data of the first, second or third group, are part of the logical pixel of the color image on the plane of the image data, and

the address where in the means for memorizing the image data are data of the first, second and third groups included in the arbitrary (considered as a random element of the set) logical pixel of the color image is equal to the address of the logical pixel of the color image is increased by the offset respectively the first, second or third group, which are predefined;

each part of the surface rendering one-to-one corresponds to the address of this area of the stand is rnost visualization, characterizing the location of the land surface visualization on the surface of the display module;

the control unit includes means for storing a management table in which elements of a management table arranged in series to each other and comprise a sequence of elements of the management table, and

element address management table, which is the first element in this sequence of elements of the management table, a pre-defined

address arbitrary (considered as a random element of the set) element management table, which is not the first item in this sequence of elements of the management table is equal to the address of the last element in this sequence of elements of the management table, increased by the offset of the fourth group, which is pre-defined, and

the order in which elements are the driving table in a sequence of elements of the management table, determines the order in which the control unit generates the data items, one-to-one corresponding to these elements of the management table;

element management table corresponding to arbitrary (considered as a random element of the set) log the ical pixel of the color image, contains the address of the logical pixel of the color image, and

the number of memory cells in the means for storing the management table held by this logical address of a pixel of a color image pre-defined, and

the address at which the means for storing the driving table is the logical address of a pixel of the color image is equal to the address of this element of the management table, increased by the offset of the fifth group, which are predefined;

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization of the first, second or third group, also contains the address of that portion of the surface rendering of the first, second or third group, and

the number of memory cells in the means for storing the management table held by the address portion of the surface rendering of the first, second or third group, pre-defined, and

the address at which the means for storing the driving table is the address of the portion of the surface rendering of the first, second or third group is equal to the address of this element of the management table, increased by the offset of the sixth group, which are predefined;

element pack is alausa table the corresponding arbitrary (considered as a random element of the set) the surface area of visualization of the first, second or third group, also contains a field attribute of the first group, which contains, respectively, the first, second or third value of the field attribute of the first group, and

the first value field of the attribute of the first group is a sign of conformity to the surface area of visualization of the first group,

the second field value attribute of the first group is a sign of conformity to the surface area of visualization of the second group,

the third field value attribute of the first group is a sign of compliance with the surface rendering of the third group,

the number of memory cells in the means for storing a management table that occupied the field attribute of the first group, pre-defined, and

the address at which the means for storing a management table is a field attribute of the first group equal to the address of this element of the management table, increased by the offset of the seventh group, which are predefined;

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization of the first, second or third group contains the same field attribute of the second group, which contains the first or the second value field of the attribute of the second group, and

the first value field of the attribute of the second group is a sign of a complete row of the management table,

arbitrary (considered as a random element of the set) element management table containing a complete line of the control table, is the last element in the row of the management table,

arbitrary (considered as a random element of the set) element management table, which is the last element in the row of the management table contains a complete row of the management table,

the number of memory cells in the means for storing a management table that occupied the field attribute of the second group, pre-defined, and

the address at which the means for storing a management table is a field attribute of the second group is equal to the address of this element of the management table, increased by the offset of the eighth group, which are predefined;

prior to forming the data item, one-to-one corresponding to an element management table containing the logical address of a pixel of the color image and the field attribute of the first group and which is the first element in the sequence elements control the gates of the table, control module

first by adding the address of this element of the management table and the offset of the fifth group calculates the address at which the means for storing the driving table is the logical address of a pixel of a color image

then the result of adding the address of this element of the management table and the offset of the seventh group calculates the address at which the means for storing a management table is a field attribute of the first group,

then reads from the means for storing a management table of the logical address of a pixel of the color image and the value of this attribute fields of the first group,

and then it checks the value of the field attribute of the first group on equality grounds of compliance with the surface area of visualization of the first group on equality grounds of compliance with the surface area of visualization of the second group and the equality sign of compliance with the surface rendering of the third group and,

in case of equality of the value of the field attribute of the first group the basis of compliance with the surface area of visualization of the first, second or third group,

in addition to this logical address of a pixel of the color image and displacement respectively of the first, second or third group calculates the address where in is eastwe for storing data of the image data are respectively the first, the second and third groups that comprise the logical pixel of the color image;

prior to forming the data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table containing the logical address of a pixel of the color image and the field attribute of the first group and not the first element in the sequence of the elements of the management table, the control module

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in this sequence of elements of the management table and the offset of the fourth group,

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address at which the means for storing the driving table is the logical address of a pixel of a color image

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address at which the means for storing a management table is a field attribute of the first group,

then reads from the means for storing a management table of the logical address of a pixel of the color image and the value of the field attribute of the first group,

and then it checks the value of the field attribute of the first group on equality grounds of compliance with the surface area of visualization of the first group on equality grounds of compliance with the surface area of visualization of the second group and the equality sign of compliance with the surface rendering of the third group and,

in case of equality of the value of the field attribute of the first group the basis of compliance with the surface area of visualization of the first, second or third group,

in addition to this logical address of a pixel of the color image and displacement respectively of the first, second or third group calculates the address at which the means for storing data of the image data are respectively first, second or third group, are included in this logical pixel of the color image;

after formation of the element data, one-to-one corresponding element of the control table that contains the address of the portion of the surface rendering of the first, second or third group and the field attribute of the second group, the control module

first by adding the address of this element of the management table and the offset of the sixth group calculates the address at which the means for storing the driving table is the address part of the surface of visuals is the first, the second or third group,

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address at which the means for storing a management table is a field attribute of the second group,

then reads from the means for storing a management table the address portion of the surface rendering of the first, second or third group and the value of this attribute fields of the second group,

and then transmits to the display module, the address portion of the surface rendering of the first, second or third group, the value field of the attribute of the second group and this data item;

the display module includes means for storing items of data sent to the display module, control module, and a means for storing one field value attribute of the second group is transmitted to the display module control module with arbitrary (considered as a random element of the set) data item;

before displaying the data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table containing the address of the portion of the surface rendering of the first, second or third group and the field attribute of the second group, on the surface provide the purpose of the display module, the display module

first receives from the control module, the address portion of the surface rendering of the first, second or third group, the value of this attribute fields of the second group and this data item

then stores this data element in the means for storing data items to the address portion of the surface rendering of the first, second or third group, and

remember that the value of the field attribute of the second group in the means for memorizing the value of the field attribute of the second group,

and then periodically at high speed checks the value of the field attribute of the second group stored in the means for memorizing the value of the field attribute of the second group, on the equality of the terminator line management table to obtain a positive result of this test.

Obtained by carrying out the third invention, the technical result, namely

memorizing a display module of the data elements included in an arbitrary (considered as a random element of the set) rows of data, prior to the display of these data elements on the surface of the display module,

and

memorizing the display module complete line of the control table that allows the display module to start the display of data elements constituting lastly the th memorized display module data line,

and

memorizing control module management table describing the partitioning of a two-dimensional array of logical pixels of the color image to be presented on the surface of the display module, and many sections of surface rendering, composing the surface of the display module, respectively, on many fields and on many areas surface areas of visualization,

is due to the fact that

the device for implementing the method of presenting the raster data of the color image on the surface visualization, consisting of sections of surface rendering of three kinds,

comprises a control module and a display module connected with the control module,

is intended to represent the image data on the surface of a display module formed arranged in a predefined order of the parts of the surface of the imaging components of many sections of surface rendering, and

the control unit includes means for storing the image data, which are multi-color data and are in the plane of the image data logical pixels of the color image components of a set of logical pixels of the color image

ka is every logical pixel of the color image is expressed by collecting data of the first group, data of the second group and third group, in characterizing the three-dimensional color space, the three normalized color coordinates respectively conditionally "first"conditionally "second" and conditionally "third" linearly independent of flowers,

the surface of the display module includes a surface rendering of the first group, the surface rendering of the second group and the surface rendering of the third group, and

in a display module for arbitrary (considered as a random element of the set) surface rendering of the first, second or third group, part of the surface of the display module has a function of converting data, respectively, the first, second or third group in the luminous flux, respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group;

the control module has a function of forming data items, one-to-one corresponding to the predefined elements of the management table,

in the display module has a function to display the above data elements on the surface of the display module, and

mentioned driving the I table describes the breakdown of a two-dimensional array of logical pixels of the color image and many surface areas of visualization, respectively, in the data area, components of the multiple data regions, and the parts of the surface of the imaging components of many areas surface areas of visualization, and

arbitrary (considered as a random element of the set) the data region is expressed in the form of a square matrix composed of one or multiple logical pixels of the color image are located next to each other in a two-dimensional array of logical pixels of the color image

the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, a pre-defined

arbitrary (considered as a random element of the set) the area of the surface sections visualization formed from one or more parts of the surface visualization, located next to each other within an imaginary square circumscribed around this area of the surface sections visualization

the parts of the surface visualization do not overlap,

the parts of the surface rendering and the centers of the imaginary squares described about these areas, surface areas of visualization, evenly distributed over the surface of the display module,

number of lots on which ernesti visualization, the components of an arbitrary (considered as a random element of the set) the area of the surface areas of visualization, pre-defined

each data region one-to-one corresponds to a region of the surface sections visualization

the order in which you placed in relation to each other in the plane of the image data of the geometric centers of the fields of data, one-to-one corresponding areas of the surface areas of visualization, coincides with the order in which you placed in relation to each other on the surface of a display module of the geometric centers of imaginary squares described about these areas, surface areas of visualization,

each logical pixel of the color image that constitutes arbitrary (considered as a random element of the set) of the data area that corresponds to each part of the surface of the visualization included in the field of surface areas of visualization, one-to-one corresponding to the data region,

each logical pixel of a color image is included in an arbitrary (considered as a random element of the set) of the data area that corresponds to each part of the surface of the visualization included in the composition of the parts of the stand is rnost visualization, one-to-one corresponding to the data region,

the management table contains the elements of the set of elements of the management table and located in one or more rows comprising multiple rows of the table control,

the number of elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is predefined and does not exceed the largest number of data elements, the mapping of which is on the surface of the display module, the display module allows you to start at the same time,

arbitrary (considered as a random element of the set) logical pixel color image included in the one or more areas of data corresponds to one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image is equal to the number of surface patches visualization corresponding to this logical pixel of the color image

element management table corresponding to arbitrary (considered as a random element of the set) logical pixel printing the second image, corresponds to only one surface visualization corresponding to this logical pixel of the color image

arbitrary (considered as a random element of the set) the surface area of visualization, which is part of the field surface areas of visualization, matches one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization, is equal to the number of logical pixels of the color image corresponding to the surface area of visualization

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization corresponds to only one logical pixel of the color image corresponding to the surface area of visualization

the number of surface areas of visualization, the relevant elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is equal to the number of these elements of the management table,

elements of a management table comprising the set of elements of the management table is, make one or more fields of a management table comprising a set of fields of the control table,

the elements of control tables, arbitrary components (considered as a random element of the set) field of the management table, comprise one or more rows of a management table comprising a continuous sequence of rows in the driving table,

the number of elements of the management table, arbitrary components (considered as a random element of the set) field of the management table is equal to the number of surface patches visualization, forming the parts of the surface of the imaging components of many areas surface areas of visualization,

the number of fields of the management table is equal to the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, and

arbitrary (considered as a random element of the set) field of the management table includes only one member of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization included in the composition of the parts of the surface visualization;

in the process of submitting the data image on the surface of the display module

the control module performs the function of forming the data elements consisting in formation at high speed of data elements constituting the multiple data elements, and

the display module performs the function of displaying on the surface of a display module of the data elements that displays at high speed of data elements generated control module, on the surface of the display module, and

each data element of the one-to-one corresponds to the element management table,

data elements that are one-to-one corresponding to the members of the management table, arbitrary components (considered as a random element of the set) line managing table form the data line, one-to-one corresponding to this row of the management table,

the order in which form the data elements constituting the data line, one-to-one corresponding to arbitrary (considered as a random element of the set) row of the control table that corresponds to the order in which the elements of the management table, one-to-one corresponding to these data elements are located in this row of the management table,

the order in which form the data line, forming multiple rows of data and the order in which they display these rows of data on the surface of the display module correspond to the order in which row of the management table, one-to-one corresponding to these rows of data are in the control table, and

the data elements that make up an arbitrary (considered as a random element of the set) line data, begin to display on the surface visualization at the same time;

in the process of forming a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group,

the control module reads from the means for storing data of the image data respectively of the first, second and third groups included in the logical pixel of the color image corresponding to this element of the management table, and assigns the data of the first, second or third group this data item;

in the process of display element data, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second, is whether the third group, on the surface of the display module

the display module performs the function of converting data, respectively, the first, second or third group in the luminous flux, respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group, and

when performing this function, the display module converts the data respectively the first, second or third group contained in this data element, the light flux respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group;

each logical pixel image color one-to-one corresponds to the address of the logical pixel of the color image, characterizing the location data of the first, second or third group, are part of the logical pixel of the color image on the plane of the image data, and

the address where in the means for memorizing the image data are data of the first, second and third groups included in the arbitrary (considered as a random element of the set) logical pixel of a color image is, equal to the address of the logical pixel of the color image is increased by the offset respectively the first, second or third group, which are predefined;

each part of the surface rendering one-to-one corresponds to the address of the land surface imaging, characterizing the location of the land surface visualization on the surface of the display module;

the control unit includes means for storing a management table in which elements of a management table arranged in series to each other and comprise a sequence of elements of the management table, and

element address management table, which is the first element in this sequence of elements of the management table, a pre-defined

address arbitrary (considered as a random element of the set) element management table, which is not the first item in this sequence of elements of the management table is equal to the address of the last element in this sequence of elements of the management table, increased by the offset of the fourth group, which is pre-defined, and

the order in which elements are the driving table in the sequence elementsbytagname table determines the order in which the control unit generates the data items, one-to-one corresponding to these elements of the management table;

element management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image contains the address of the logical pixel of the color image, and

the number of memory cells in the means for storing the management table held by this logical address of a pixel of a color image pre-defined, and

the address at which the means for storing the driving table is the logical address of a pixel of the color image is equal to the address of this element of the management table, increased by the offset of the fifth group, which are predefined;

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization of the first, second or third group, also contains the address of that portion of the surface rendering of the first, second or third group, and

the number of memory cells in the means for storing the management table held by the address portion of the surface rendering of the first, second or third group, the provisional is about defined, and

the address at which the means for storing the driving table is the address of the portion of the surface rendering of the first, second or third group is equal to the address of this element of the management table, increased by the offset of the sixth group, which are predefined;

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization of the first, second or third group, also contains a field attribute of the first group, which contains, respectively, the first, second or third value of the field attribute of the first group, and

the first value field of the attribute of the first group is a sign of conformity to the surface area of visualization of the first group,

the second field value attribute of the first group is a sign of conformity to the surface area of visualization of the second group,

the third field value attribute of the first group is a sign of compliance with the surface rendering of the third group,

the number of memory cells in the means for storing a management table that occupied the field attribute of the first group, pre-defined, and

the address at which the means for storing a management table is a field attribute of the first group, equal Adra is this element of the management table, increased by the offset of the seventh group, which are predefined;

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization of the first, second or third group, also contains a field attribute of the second group, which contains the first or the second value field of the attribute of the second group, and

the first value field of the attribute of the second group is a sign of a complete row of the management table,

arbitrary (considered as a random element of the set) element management table containing a complete line of the control table, is the last element in the row of the management table,

arbitrary (considered as a random element of the set) element management table, which is the last element in the row of the management table contains a complete row of the management table,

the number of memory cells in the means for storing a management table that occupied the field attribute of the second group, pre-defined, and

the address at which the means for storing a management table is a field attribute of the second group is equal to the address of this element of the management table, increased by the offset of the eight the Oh group, which are predefined;

prior to forming the data item, one-to-one corresponding to an element management table containing the logical address of a pixel of the color image and the field attribute of the first group and which is the first element in the sequence of the elements of the management table, the control module

first by adding the address of this element of the management table and the offset of the fifth group calculates the address at which the means for storing the driving table is the logical address of a pixel of a color image

then the result of adding the address of this element of the management table and the offset of the seventh group calculates the address at which the means for storing a management table is a field attribute of the first group,

then reads from the means for storing a management table of the logical address of a pixel of the color image and the value of this attribute fields of the first group,

and then it checks the value of the field attribute of the first group on equality grounds of compliance with the surface area of visualization of the first group on equality grounds of compliance with the surface area of visualization of the second group and the equality sign of compliance with the surface rendering of the third group and,

PR is the equality of the value of the field attribute of the first group the basis of compliance with the surface area of visualization of the first, the second or third group,

in addition to this logical address of a pixel of the color image and displacement respectively of the first, second or third group calculates the address at which the means for storing data of the image data are respectively first, second or third group, are included in this logical pixel of the color image;

prior to forming the data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table containing the logical address of a pixel of the color image and the field attribute of the first group and not the first element in the sequence of the elements of the management table, the control module

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in this sequence of elements of the management table and the offset of the fourth group,

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address at which the means for storing the driving table is the logical address of a pixel of a color image

then the result of adding the calculated address this element of the management that the support and displacement of the seventh group calculates the address which means for storing a management table is a field attribute of the first group,

then reads from the means for storing a management table of the logical address of a pixel of the color image and the value of this attribute fields of the first group,

and then it checks the value of the field attribute of the first group on equality grounds of compliance with the surface area of visualization of the first group on equality grounds of compliance with the surface area of visualization of the second group and the equality sign of compliance with the surface rendering of the third group and,

in case of equality of the value of the field attribute of the first group the basis of compliance with the surface area of visualization of the first, second or third group,

in addition to this logical address of a pixel of the color image and displacement respectively of the first, second or third group calculates the address at which the means for storing data of the image data are respectively first, second or third group, are included in this logical pixel of the color image;

after formation of the element data, one-to-one corresponding element of the control table that contains the address of the portion of the surface rendering of the first, second or third group and the field is tributa second group, control module

first by adding the address of this element of the management table and the offset of the sixth group calculates the address at which the means for storing the driving table is the address of the portion of the surface rendering of the first, second or third group,

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address at which the means for storing a management table is a field attribute of the second group,

then reads from the means for storing a management table the address portion of the surface rendering of the first, second or third group and the value of this attribute fields of the second group,

and then transmits to the display module, the address portion of the surface rendering of the first, second or third group, the value field of the attribute of the second group and this data item;

the display module includes means for storing items of data sent to the display module, control module, and a means for storing one field value attribute of the second group is transmitted to the display module control module with arbitrary (considered as a random element of the set) data item;

before displaying the data item, one-to-one with the corresponding arbitrary (considered as a random element of the set) element management table, contains the address of the portion of the surface rendering of the first, second or third group and the field attribute of the second group, on the surface of the display module, the display module

first receives from the control module, the address portion of the surface rendering of the first, second or third group, the value of this attribute fields of the second group and this data item

then stores this data element in the means for storing data items to the address portion of the surface rendering of the first, second or third group, and stores this value field of the attribute of the second group in the means for memorizing the value of the field attribute of the second group,

and then periodically at high speed checks the value of the field attribute of the second group stored in the means for memorizing the value of the field attribute of the second group, on the equality of the terminator line management table to obtain a positive result of this test.

Fourth, a claimed invention is based on technical views, described above, and is a device to implement the method of visualization of raster data of the color image.

Fourth, a claimed invention is intended to solve the problem

expand the Arsenal of technical means of device-prototype

p> in submitting the raster data of the color image on the surface visualization of this device, formed by a surface rendering of the four species that are evenly distributed over the surface rendering this device

when any mutual arrangement of the surfaces of the imaging forming surface rendering this device

when any pre-defined ratio of surface areas of visualization, the corresponding logical pixels of this image, and the number of logical pixels of this image and

in accordance with any predefined order data representation of the image on the surface visualization of this device, which can only be implemented for surface rendering this device and according to which data of the image contained in logical pixels corresponding to the same arbitrary (considered as a random element of the set) surface rendering of this device, to be submitted on the surface visualization of this device at different points in time, one-to-one correspond to the data contained in logical pixels

and

to improve the brightness of the color and what the considerations applying visualized on the surface visualization of this device,

and in the implementation of this problem can be obtained by the following technical result:

representation of raster data of the color image on the surface of a rendering device for rendering the bitmap data of the color image formed by surface rendering of the four species that are evenly distributed over the surface rendering this device

when any mutual arrangement of the surfaces of the imaging forming surface rendering this device

when any pre-defined ratio of surface areas of visualization, the corresponding logical pixels of this image, and the number of logical pixels of this image and

in accordance with any predefined order data representation of the image on the surface visualization of this device, which can only be implemented for surface rendering this device and according to which data of the image contained in logical pixels corresponding to the same arbitrary (considered as a random element of the set) surface rendering of this device, to be submitted on the surface is rnost visualization of this device at different points in time, one-to-one correspond to the data contained in logical pixels

and

increasing the brightness of the color image rendered on the surface visualization of this device.

The technical result is achieved by the fact that

in the famous invention of the "Display device"

contains a control module and a display module connected with the control module,

designed to represent the image data on the surface of a display module formed arranged in a predefined order of the parts of the surface of the imaging components of many sections of surface rendering, and

the control unit includes means for storing the image data, which are multi-color data and are in the plane of the image data logical pixels of the color image components of a set of logical pixels of the color image

each logical pixel of the color image is expressed by collecting data of the first group, the second data group and data of the third group, in characterizing the three-dimensional color space, the three normalized color coordinates respectively conditionally "first"conditionally "second" and conditionally "third" linearly independent of flowers,

p> the surface of the display module includes a surface rendering of the first group, the surface rendering of the second group and the surface rendering of the third group, and

for arbitrary (considered as a random element of the set) surface rendering of the first, second or third group, part of the surface of the display module, the display module has a function of converting data, respectively, the first, second or third group in the luminous flux, respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group,

according to the fourth claimed invention

in the control module in accordance with a predefined algorithm to calculate data of the fourth group, in characterizing the three-dimensional color space of any of the three normalized color coordinates of the achromatic color based on the data of the first, second and third groups has a function to calculate the data of the fourth group;

the surface of the display module also includes a surface rendering of the fourth group, and

for arbitrary (considered as lucynova element sets) surface rendering of the fourth group, part of the surface of the display module, the display module has a function of converting data of the fourth group in luminous flux achromatic color cast from this part of the surface rendering of the fourth group;

the control module has a function of forming data items, one-to-one corresponding to the predefined elements of the management table,

in the display module has a function to display the above data elements on the surface of the display module, and

mentioned management table describes the breakdown of a two-dimensional array of logical pixels of the color image and the set of surface patches visualization respectively on the field data comprising multiple data regions, and the parts of the surface of the imaging components of many areas surface areas of visualization, and

arbitrary (considered as a random element of the set) the data region is expressed in the form of a square matrix composed of one or multiple logical pixels of the color image are located next to each other in a two-dimensional array of logical pixels of the color image

the number of logical pixels of the color image, SOS is alausa arbitrary (considered as a random element of the set) the data area, pre-defined

arbitrary (considered as a random element of the set) the area of the surface sections visualization formed from one or more parts of the surface visualization, located next to each other within an imaginary square circumscribed around this area of the surface sections visualization

the parts of the surface visualization do not overlap,

the parts of the surface rendering and the centers of the imaginary squares described about these areas, surface areas of visualization, evenly distributed over the surface of the display module,

the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, pre-defined

each data region one-to-one corresponds to a region of the surface sections visualization

the order in which you placed in relation to each other in the plane of the image data of the geometric centers of the fields of data, one-to-one corresponding areas of the surface areas of visualization, coincides with the order in which you placed in relation to each other on the surface of a display module of the geometric center of the imaginary squares, described around these areas, surface areas of visualization,

each logical pixel of the color image that constitutes arbitrary (considered as a random element of the set) of the data area that corresponds to each part of the surface of the visualization included in the field of surface areas of visualization, one-to-one corresponding to the data region,

each logical pixel of a color image is included in an arbitrary (considered as a random element of the set) of the data area that corresponds to each portion of the surface rendering, which is part of the field surface areas of visualization, one-to-one corresponding to the data region,

the management table contains the elements of the set of elements of the management table and located in one or more rows comprising multiple rows of the table control,

the number of elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is predefined and does not exceed the largest number of data elements, the mapping of which is on the surface of the display module, the display module allows you to start at the same time,

p is visualname (considered as a random element of the set) logical pixel of the color image, included one or more areas of data corresponds to one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image is equal to the number of surface patches visualization corresponding to this logical pixel of the color image

element management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image corresponds to only one surface visualization corresponding to this logical pixel of the color image

arbitrary (considered as a random element of the set) the surface area of visualization, which is part of the field surface areas of visualization, matches one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization, is equal to the number of logical pixels of the color image corresponding to the surface area of visualization

element management table corresponding to the producers who gnomo (considered as a random element of the set) the surface area of visualization, corresponds to only one logical pixel of the color image corresponding to the surface area of visualization

the number of surface areas of visualization, the relevant elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is equal to the number of these elements of the management table,

elements of a management table comprising the set of elements of the management table are one or more fields of a management table comprising a set of fields of the control table,

the elements of control tables, arbitrary components (considered as a random element of the set) field of the management table, comprise one or more rows of a management table comprising a continuous sequence of rows in the driving table,

the number of elements of the management table, arbitrary components (considered as a random element of the set) field of the management table is equal to the number of surface patches visualization, forming the parts of the surface of the imaging components of many areas surface areas of visualization,

the number of fields of the management table is equal to the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, and

arbitrary (considered as a random element of the set) field of the management table includes only one member of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization included in the composition of the parts of the surface visualization;

in the process of providing image data on the surface of the display module

the control module performs the function of forming the data elements consisting in formation at high speed of data elements constituting the multiple data elements, and

the display module performs the function of displaying on the surface of a display module of the data elements that displays at high speed of data elements generated control module, on the surface of the display module, and

each data element of the one-to-one corresponds to the element management table,

data elements that are one-to-one corresponding to the members of the management table, arbitrary components (considered as a random element of the set) line managing table form the data line, one-to-one corresponding to the row control the gates of the table

the order in which form the data elements constituting the data line, one-to-one corresponding to arbitrary (considered as a random element of the set) row of the control table that corresponds to the order in which the elements of the management table, one-to-one corresponding to these data elements are located in this row of the management table,

the order in which form the data line, forming multiple rows of data, and the order in which they display these rows of data on the surface of the display module correspond to the order in which row of the management table, one-to-one corresponding to these rows of data are in the control table, and

the data elements that make up an arbitrary (considered as a random element of the set) line data, begin to display on the surface visualization at the same time;

in the process of forming a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group,

the control module reads from the means for storing data of the image data respectively of the first, second and the third group, included in the logical pixel of the color image corresponding to this element of the management table, and assigns the data of the first, second or third group this data item;

in the process of forming a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the portion of the surface rendering of the fourth group, the control module

first reads from the means for storing data of the image data of the first, second and third groups that comprise the logical pixel of the color image corresponding to this element of the management table, and on the basis of these read out data of the first, second and third groups calculates the data of the fourth group,

and then assigns these calculated data of the fourth group this data item, and

in the process of calculating the data of the fourth group on the basis of these read out data of the first, second and third groups and in accordance with the aforementioned algorithm for calculating the data of the fourth group managing module

first compares between the read data of the first, second and third groups,

and then sets the data value of the fourth group is equal to the value of these data being read first, second or third group, not exceeding the values of these read data, respectively the second, third or first group and not exceeding the values of these read data, respectively, the third, first or second group;

in the process of display element data, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second, third or fourth group, on the surface of the display module

the display module performs the function of converting data respectively first, second, third or fourth group of luminous flux, respectively conditionally "first"conditionally "second"conditionally "third" or achromatic color, directed from this part of the surface rendering of the first, second, third or fourth group, and

when performing this function, the display module converts the data respectively first, second, third or fourth group contained in this data element, the light flux respectively conditionally "first"conditionally "second"conditionally "third" or achromatic color, directed from this part of the surface rendering of the first, second, third or fourth group.

For technical is one result, consisting of

view raster data of the color image on the surface of a display module formed by a large number of surface patches visualization of four kinds, evenly distributed over the surface rendering of the display module and the components of the matrix screen, in which the spacing of the surfaces visualization in the rows of the screen equal to the spacing of the surfaces visualization in the columns of the screen

the fourth invention of the Device to implement the method of visualization of raster data of the color image"

characterized in that

surface visualization that make up the surface of the display module, is formed on the surface of a display module of a two-dimensional matrix surface areas of visualization, and

the spacing of the surfaces of visualization in the lines of this two-dimensional matrix surface areas of visualization equal to the spacing of the surfaces visualization in the columns of this two-dimensional matrix plots of surface rendering.

Obtained by carrying out the fourth of the claimed invention technical result, namely

representation of raster data of the color image on the surface of the display module, obrazovan the th large number of surface patches visualization of four kinds, evenly distributed over the surface rendering of the display module and the components of the matrix screen, in which the spacing of the surfaces visualization in the rows of the screen equal to the spacing of the surfaces visualization in the columns of the screen

is due to the fact that

the device for implementing the method of visualization of raster data of the color image

comprises a control module and a display module connected with the control module,

is intended to represent the image data on the surface of a display module formed arranged in a predefined order of the parts of the surface of the imaging components of many sections of surface rendering, and

the control unit includes means for storing the image data, which are multi-color data and are in the plane of the image data logical pixels of the color image components of a set of logical pixels of the color image

each logical pixel of the color image is expressed by collecting data of the first group, the second data group and data of the third group, in characterizing the three-dimensional color space, the three normalized color coordinates respectively conditionally "is, I can pay tithing", conventionally, the "second" and conditionally "third" linearly independent of flowers,

the surface of the display module includes a surface rendering of the first group, the surface rendering of the second group, the surface rendering of the third group and the surface rendering of the fourth group,

in the control module in accordance with a predefined algorithm to calculate data of the fourth group, in characterizing the three-dimensional color space of any of the three normalized color coordinates of the achromatic color based on the data of the first, second and third groups has a function to calculate the data of the fourth group, and

for arbitrary (considered as a random element of the set) surface rendering of the first, second, third or fourth group, part of the surface of the display module, the display module has a function of converting data respectively first, second, third or fourth group of luminous flux, respectively conditionally "first"conditionally "second"conditionally "third" or achromatic color, directed from this part of the surface rendering of the first, second, third or fourth group;

surface visualization components stand rnost a display module, form on the surface of a display module of a two-dimensional matrix surface areas of visualization, and

the spacing of the surfaces of visualization in the lines of this two-dimensional matrix surface areas of visualization equal to the spacing of the surfaces visualization in the columns of this two-dimensional matrix surface areas of visualization;

the control module has a function of forming data items, one-to-one corresponding to the predefined elements of the management table,

in the display module has a function to display the above data elements on the surface of the display module, and

mentioned management table describes the breakdown of a two-dimensional array of logical pixels of the color image and the set of surface patches visualization respectively on the field data comprising multiple data regions, and the parts of the surface of the imaging components of many areas surface areas of visualization, and

arbitrary (considered as a random element of the set) the data region is expressed in the form of a square matrix composed of one or multiple logical pixels of the color image are located next to each other in demern the m array of logical pixels of the color image

the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, a pre-defined

arbitrary (considered as a random element of the set) the area of the surface sections visualization formed from one or more parts of the surface visualization, located next to each other within an imaginary square circumscribed around this area of the surface sections visualization

the parts of the surface visualization do not overlap,

the parts of the surface rendering and the centers of the imaginary squares described about these areas, surface areas of visualization, evenly distributed over the surface of the display module,

the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, pre-defined

each data region one-to-one corresponds to a region of the surface sections visualization

the order in which you placed in relation to each other in the plane of the image data of the geometric centers of the fields of data, one-to-one corresponding areas areas the surface is rnost visualization, coincides with the order in which you placed in relation to each other on the surface of a display module of the geometric centers of imaginary squares described about these areas, surface areas of visualization,

each logical pixel of the color image that constitutes arbitrary (considered as a random element of the set) of the data area that corresponds to each part of the surface of the visualization included in the field of surface areas of visualization, one-to-one corresponding to the data region,

each logical pixel of a color image is included in an arbitrary (considered as a random element of the set) of the data area that corresponds to each portion of the surface rendering, which is part of the field surface areas of visualization, one-to-one corresponding to the data region,

the management table contains the elements of the set of elements of the management table and located in one or more rows comprising multiple rows of the table control,

the number of elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is predefined and does not exceed N. the highest number of data elements, display them on the surface of the display module, the display module allows you to start at the same time,

arbitrary (considered as a random element of the set) logical pixel color image included in the one or more areas of data corresponds to one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image is equal to the number of surface patches visualization corresponding to this logical pixel of the color image

element management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image corresponds to only one surface visualization corresponding to this logical pixel of the color image

arbitrary (considered as a random element of the set) the surface area of visualization, which is part of the field surface areas of visualization, matches one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as cases the th element of the set) the surface area of visualization, equal to the number of logical pixels of the color image corresponding to the surface area of visualization

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization corresponds to only one logical pixel of the color image corresponding to the surface area of visualization

the number of surface areas of visualization, the relevant elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is equal to the number of these elements of the management table,

elements of a management table comprising the set of elements of the management table are one or more fields of a management table comprising a set of fields of the control table,

the elements of control tables, arbitrary components (considered as a random element of the set) field of the management table, comprise one or more rows of a management table comprising a continuous sequence of rows in the driving table,

the number of elements of the management table, arbitrary components (considered as a random element of the set) field of the management table is equal to the number of surface patches visualization, forming the parts of the surface of the imaging components of many areas surface areas of visualization,

the number of fields of the management table is equal to the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, and

arbitrary (considered as a random element of the set) field of the management table includes only one member of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization included in the composition of the parts of the surface visualization;

in the process of providing image data on the surface of the display module

the control module performs the function of forming the data elements consisting in formation at high speed of data elements constituting the multiple data elements, and

the display module performs the function of displaying on the surface of a display module of the data elements that displays at high speed of data elements generated control module, on the surface of the display module, and

each data element is mutually odnaznachno which corresponds to the element management table,

data elements that are one-to-one corresponding to the members of the management table, arbitrary components (considered as a random element of the set) line managing table form the data line, one-to-one corresponding to this row of the management table,

the order in which form the data elements constituting the data line, one-to-one corresponding to arbitrary (considered as a random element of the set) row of the control table that corresponds to the order in which the elements of the management table, one-to-one corresponding to these data elements are located in this row of the management table,

the order in which form the data line, forming multiple rows of data, and the order in which they display these rows of data on the surface of the display module correspond to the order in which row of the management table, one-to-one corresponding to these rows of data are in the control table, and

the data elements that make up an arbitrary (considered as a random element of the set) line data, begin to display on the surface visualization at the same time;

in the process of forming a data item, one-to-one corresponding random is (considered as a random element of the set) element management table, the corresponding surface area of visualization of the first, second or third group,

the control module reads from the means for storing data of the image data respectively of the first, second and third groups included in the logical pixel of the color image corresponding to this element of the management table, and assigns the data of the first, second or third group this data item;

in the process of forming a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the portion of the surface rendering of the fourth group, the control module

first reads from the means for storing data of the image data of the first, second and third groups that comprise the logical pixel of the color image corresponding to this element of the management table, and on the basis of these read out data of the first, second and third groups calculates the data of the fourth group,

and then assigns these calculated data of the fourth group this data item, and

in the process of calculating the data of the fourth group on the basis of these read out data of the first, second and third groups and in accordance with the aforementioned algorithm of calculation data Thur is rtoi group managing module

first compares between the read data of the first, second and third groups,

and then sets the data value of the fourth group is equal to the value of these read data of the first, second or third group, not exceeding the values of these read data, respectively the second, third or first group and not exceeding the values of these read data, respectively, the third, first or second group;

in the process of display element data, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second, third or fourth group, on the surface of the display module

the display module performs the function of converting data respectively first, second, third or fourth group of luminous flux, respectively conditionally "first"conditionally "second"conditionally "third" or achromatic color, directed from this part of the surface rendering of the first, second, third or fourth group, and

when performing this function, the display module converts the data respectively first, second, third or fourth group contained in this data element, the luminous flux matched with the public conditionally "first", conventionally, the "second"conditionally "third" or achromatic color, directed from this part of the surface rendering of the first, second, third or fourth group.

To obtain a technical result consists in the

the more accurate representation of the boundaries of large colored and achromatic components of a color image rendered on the surface of a display module formed by surface rendering of the four species that are evenly distributed over the surface rendering of the display module,

strengthening distinguish small achromatic components of periodic structures of this color image and

the increasing number of information about achromatic details of this color image,

the fourth invention of the Device to implement the method of visualization of raster data of the color image"

characterized in that

control table describes the partitioning of a two-dimensional array of logical pixels of the color image and many surface areas of visualization, respectively, on many fields and on many areas surface areas of visualization, in which

a data region on the plane of image data do not overlap,

the number of data regions, one-to-one correspond the respective areas of the surface areas of visualization, is equal to the highest possible values for these color image and the surface of the display module, and

the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, is equal to the highest possible values for this pre-defined number of fields of data.

Obtained by carrying out the fourth invention, the technical result, namely

a more accurate representation of the boundaries of large colored and achromatic components of a color image rendered on the surface of a display module formed by surface rendering of the four species that are evenly distributed over the surface rendering of the display module,

strengthening distinguish small achromatic components of periodic structures of this color image and

the increasing number of information about achromatic details of this color image,

is due to the fact that

the device for implementing the method of visualization of raster data of the color image

comprises a control module and a display module connected with the control module,

is intended to represent the image data on top of the spine of a display module, educated arranged in a predefined order of the parts of the surface of the imaging components of many sections of surface rendering, and

the control unit includes means for storing the image data, which are multi-color data and are in the plane of the image data logical pixels of the color image components of a set of logical pixels of the color image

each logical pixel of the color image is expressed by collecting data of the first group, the second data group and data of the third group, in characterizing the three-dimensional color space, the three normalized color coordinates respectively conditionally "first"conditionally "second" and conditionally "third" linearly independent of flowers,

the surface of the display module includes a surface rendering of the first group, the surface rendering of the second group, the surface rendering of the third group and the surface rendering of the fourth group,

in the control module in accordance with a predefined algorithm to calculate data of the fourth group, in characterizing the three-dimensional color space of any of the three normalized color coordinates of the achromatic color, the OS is the Finance data first, the second and third groups has a function to calculate the data of the fourth group, and

for arbitrary (considered as a random element of the set) surface rendering of the first, second, third or fourth group, part of the surface of the display module, the display module has a function of converting data respectively first, second, third or fourth group of luminous flux, respectively conditionally "first"conditionally "second"conditionally "third" or achromatic color, directed from this part of the surface rendering of the first, second, third or fourth group;

the control module has a function of forming data items, one-to-one corresponding to the predefined elements of the management table,

in the display module has a function to display the above data elements on the surface of the display module, and

mentioned management table describes the breakdown of a two-dimensional array of logical pixels of the color image and the set of surface patches visualization respectively on the field data comprising multiple data regions, and the parts of the surface of the imaging components of many areas surface areas of visas is ment, and

arbitrary (considered as a random element of the set) the data region is expressed in the form of a square matrix composed of one or multiple logical pixels of the color image are located next to each other in a two-dimensional array of logical pixels of the color image

the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, a pre-defined

arbitrary (considered as a random element of the set) the area of the surface sections visualization formed from one or more parts of the surface visualization, located next to each other within an imaginary square circumscribed around this area of the surface sections visualization

the parts of the surface visualization do not overlap,

the parts of the surface rendering and the centers of the imaginary squares described about these areas, surface areas of visualization, evenly distributed over the surface of the display module,

the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, pre is varicella defined

each data region one-to-one corresponds to a region of the surface sections visualization

the order in which you placed in relation to each other in the plane of the image data of the geometric centers of the fields of data, one-to-one corresponding areas of the surface areas of visualization, coincides with the order in which you placed in relation to each other on the surface of a display module of the geometric centers of imaginary squares described about these areas, surface areas of visualization,

each logical pixel of the color image that constitutes arbitrary (considered as a random element of the set) of the data area that corresponds to each part of the surface of the visualization included in the field of surface areas of visualization, one-to-one corresponding to the data region,

each logical pixel of a color image is included in an arbitrary (considered as a random element of the set) of the data area that corresponds to each portion of the surface rendering, which is part of the field surface areas of visualization, one-to-one corresponding to the data region,

the management table contains the elements of the set of elements in reviewsa table and located in one or more rows, the components of the multiple rows of the table control,

the number of elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is predefined and does not exceed the largest number of data elements, the mapping of which is on the surface of the display module, the display module allows you to start at the same time,

arbitrary (considered as a random element of the set) logical pixel color image included in the one or more areas of data corresponds to one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image is equal to the number of surface patches visualization corresponding to this logical pixel of the color image

element management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image corresponds to only one surface visualization corresponding to this logical pixel of the color image

arbitrary (considered as a case of the th element of the set) the surface area of visualization, included the parts of the surface visualization, matches one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization, is equal to the number of logical pixels of the color image corresponding to the surface area of visualization

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization corresponds to only one logical pixel of the color image corresponding to the surface area of visualization

the number of surface areas of visualization, the relevant elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is equal to the number of these elements of the management table,

elements of a management table comprising the set of elements of the management table are one or more fields of a management table comprising a set of fields of the control table,

the elements of control tables, arbitrary components (considered as a random element of the set) field control is her table, comprise one or more rows of a management table comprising a continuous sequence of rows in the driving table,

the number of elements of the management table, arbitrary components (considered as a random element of the set) field of the management table is equal to the number of surface patches visualization, forming the parts of the surface of the imaging components of many areas surface areas of visualization,

the number of fields of the management table is equal to the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, and

arbitrary (considered as a random element of the set) field of the management table includes only one member of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization included in the composition of the parts of the surface visualization;

control table describes the partitioning of a two-dimensional array of logical pixels of the color image and many surface areas of visualization, respectively, on many fields and on many areas surface areas of visualization, in which

is blasti data on the plane of image data do not overlap,

the number of data regions, one-to-one corresponding areas of the surface areas of visualization, is equal to the highest possible values for these color image and the surface of the display module, and

the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, is equal to the highest possible values for this pre-defined number of fields of data;

in the process of providing image data on the surface of the display module

the control module performs the function of forming the data elements consisting in formation at high speed of data elements constituting the multiple data elements, and

the display module performs the function of displaying on the surface of a display module of the data elements that displays at high speed of data elements generated control module, on the surface of the display module, and

each data element of the one-to-one corresponds to the element management table,

data elements that are one-to-one corresponding to the members of the management table, arbitrary components is th (considered as a random element of the set) row of the management table, form the data line, one-to-one corresponding to this row of the management table,

the order in which form the data elements constituting the data line, one-to-one corresponding to arbitrary (considered as a random element of the set) row of the control table that corresponds to the order in which the elements of the management table, one-to-one corresponding to these data elements are located in this row of the management table,

the order in which form the data line, forming multiple rows of data, and the order in which they display these rows of data on the surface of the display module correspond to the order in which row of the management table, one-to-one corresponding to these rows of data are in the control table, and

the data elements that make up an arbitrary (considered as a random element of the set) line data, begin to display on the surface visualization at the same time;

in the process of forming a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group,

managing modulisticait from the means for storing data of the image data respectively to the first, the second and third groups that comprise the logical pixel of the color image corresponding to this element of the management table, and assigns the data of the first, second or third group this data item;

in the process of forming a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the portion of the surface rendering of the fourth group, the control module

first reads from the means for storing data of the image data of the first, second and third groups that comprise the logical pixel of the color image corresponding to this element of the management table, and on the basis of these read out data of the first, second and third groups calculates the data of the fourth group,

and then assigns these calculated data of the fourth group this data item, and

in the process of calculating the data of the fourth group on the basis of these read out data of the first, second and third groups and in accordance with the aforementioned algorithm for calculating the data of the fourth group managing module

first compares between the read data of the first, second and third groups,

and then sets the data value of the fourth group is equal to the value of EB is x read data first, the second or third group, not exceeding the values of these read data, respectively the second, third or first group and not exceeding the values of these read data, respectively, the third, first or second group;

in the process of display element data, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second, third or fourth group, on the surface of the display module

the display module performs the function of converting data respectively first, second, third or fourth group of luminous flux, respectively conditionally "first"conditionally "second"conditionally "third" or achromatic color, directed from this part of the surface rendering of the first, second, third or fourth group, and

when performing this function, the display module converts the data respectively first, second, third or fourth group contained in this data element, the light flux respectively conditionally "first"conditionally "second"conditionally "third" or achromatic color, directed from this part of the surface rendering of the first, second, third or fourth group.

To obtain a technical result consists in the

memorizing a display module of the data elements included in an arbitrary (considered as a random element of the set) rows of data, prior to the display of these data elements on the surface of the display module,

and

memorizing the display module complete line of the control table that allows the display module to start the display of data elements that make up the last saved display module data line,

and

storage control module management table describing the partitioning of a two-dimensional array of logical pixels of the color image to be presented on the surface of the display module, and many sections of surface rendering, composing the surface of the display module, respectively, on many fields and on many areas surface areas of visualization,

the fourth invention of the Device to implement the method of visualization of raster data of the color image"

characterized in that

each logical pixel image color one-to-one corresponds to the address of the logical pixel of the color image, characterizing the location of the first data, the second and third groups included in this logical pixel of the color image on the plane of the image data, and

the address where in the means for memorizing the image data are data of the first, second and third groups included in the arbitrary (considered as a random element of the set) logical pixel of the color image is equal to the address of the logical pixel of the color image is increased by the offset respectively the first, second or third group, which are predefined;

each part of the surface rendering one-to-one corresponds to the address of the land surface imaging, characterizing the location of the land surface visualization on the surface of the display module;

the control unit includes means for storing a management table in which elements of a management table arranged in series to each other and comprise a sequence of elements of the management table, and

element address management table, which is the first element in this sequence of elements of the management table, a pre-defined

address arbitrary (considered as a random element of the set) ELEH the enta management table, which is not the first item in this sequence of elements of the management table is equal to the address of the last element in this sequence of elements of the management table, increased by the offset of the fourth group, which is pre-defined, and

the order in which elements are the driving table in a sequence of elements of the management table, determines the order in which the control unit generates the data items, one-to-one corresponding to these elements of the management table;

element management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image contains the address of the logical pixel of the color image, and

the number of memory cells in the means for storing the management table held by this logical address of a pixel of a color image pre-defined, and

the address at which the means for storing the driving table is the logical address of a pixel of the color image is equal to the address of this element of the management table, increased by the offset of the fifth group, which are predefined;

element management table corresponding to arbitrary (seeing as the e random element of the set) the surface area of visualization of the first, the second, third or fourth group, also contains the address of that portion of the surface rendering of the first, second, third or fourth group, and

the number of memory cells in the means for storing the management table held by the address portion of the surface rendering of the first, second, third or fourth group, pre-defined, and

the address at which the means for storing the driving table is the address of the portion of the surface rendering of the first, second, third or fourth group, equal to the address of this element of the management table, increased by the offset of the sixth group, which are predefined;

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization of the first, second, third or fourth group, also contains a field attribute of the first group, which contains, respectively, the first, second, third or fourth field value attribute of the first group, and

the first value field of the attribute of the first group is a sign of conformity to the surface area of visualization of the first group,

the second field value attribute of the first group is a sign of conformity to the surface area of visualization of the second group,

the third value of the field attribute of the first group is a sign of compliance with the surface rendering of the third group,

the fourth field value attribute of the first group is a sign of compliance with the surface rendering of the fourth group,

the number of memory cells in the means for storing a management table that occupied the field attribute of the first group, pre-defined, and

the address at which the means for storing a management table is a field attribute of the first group equal to the address of this element of the management table, increased by the offset of the seventh group, which are predefined;

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization of the first, second, third or fourth group, also contains a field attribute of the second group, which contains the first or the second value field of the attribute of the second group, and

the first value field of the attribute of the second group is a sign of a complete row of the management table,

arbitrary (considered as a random element of the set) element management table containing a complete line of the control table, is the last element in the row of the management table,

arbitrary (considered as a random element of the set) element management table, t is audica the last element in the row of the management table, contains a complete row of the management table,

the number of memory cells in the means for storing a management table that occupied the field attribute of the second group, pre-defined, and

the address at which the means for storing a management table is a field attribute of the second group is equal to the address of this element of the management table, increased by the offset of the eighth group, which are predefined;

prior to forming the data item, one-to-one corresponding to an element management table containing the logical address of a pixel of the color image and the field attribute of the first group and which is the first element in the sequence of the elements of the management table, the control module

first by adding the address of this element of the management table and the offset of the fifth group calculates the address at which the means for storing the driving table is the logical address of a pixel of a color image

then the result of adding the address of this element of the management table and the offset of the seventh group calculates the address at which the means for storing a management table is a field attribute of the first group,

then reads from the means for storing a management table that address oricheskogo pixel of the color image and the value of this attribute fields of the first group,

then it checks the value of the field attribute of the first group on equality grounds of compliance with the surface area of visualization of the first group on equality grounds of compliance with the surface area of visualization of the second group, on equality grounds of compliance with the surface rendering of the third group and the equality sign of compliance with the surface rendering of the fourth group,

and then, when the equality of the value of the field attribute of the first group the basis of compliance with the surface area of visualization of the first, second or third group,

in addition to this logical address of a pixel of the color image and displacement respectively of the first, second or third group calculates the address at which the means for storing data of the image data are respectively first, second or third group, are included in this logical pixel of the color image, and,

in case of equality of the value of the field attribute of the first group to sign the compliance portion of the surface rendering of the fourth group,

in addition to this logical address of a pixel of the color image and the offset of the first group calculates the address where in the means for memorizing the image data are data of the first group, are included in this log is centred on the pixel of the color image

in addition to this logical address of a pixel of the color image and the offset of the second group calculates the address where in the means for memorizing the image data are data of the second group, are included in this logical pixel of the color image, and

in addition to this logical address of a pixel of the color image and the offset of the third group calculates the address where in the means for memorizing the image data are data of the third group, are included in this logical pixel of the color image;

prior to forming the data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table containing the logical address of a pixel of the color image and the field attribute of the first group and not the first element in the sequence of the elements of the management table, the control module

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in this sequence of elements of the management table and the offset of the fourth group,

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address at which the medium is ve to remember the driving table is the logical address of a pixel of a color image

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address at which the means for storing a management table is a field attribute of the first group,

then reads from the means for storing a management table of the logical address of a pixel of the color image and the value of this attribute fields of the first group,

then it checks the value of the field attribute of the first group on equality grounds of compliance with the surface area of visualization of the first group on equality grounds of compliance with the surface area of visualization of the second group, on equality grounds of compliance with the surface rendering of the third group and the equality sign of compliance with the surface rendering of the fourth group,

and then, when the equality of the value of the field attribute of the first group the basis of compliance with the surface area of visualization of the first, second or third group,

in addition to this logical address of a pixel of the color image and displacement respectively of the first, second or third group calculates the address at which the means for storing data of the image data are respectively first, second or third group, are included in this logical pixel is Vatan image, and,

in case of equality of the value of the field attribute of the first group to sign the compliance portion of the surface rendering of the fourth group,

in addition to this logical address of a pixel of the color image and the offset of the first group calculates the address where in the means for memorizing the image data are data of the first group, are included in this logical pixel of the color image

in addition to this logical address of a pixel of the color image and the offset of the second group calculates the address where in the means for memorizing the image data are data of the second group, are included in this logical pixel of the color image, and

in addition to this logical address of a pixel of the color image and the offset of the third group calculates the address where in the means for memorizing the image data are data of the third group, are included in this logical pixel of the color image;

after formation of the element data, one-to-one corresponding element of the control table that contains the address of the portion of the surface rendering of the first, second, third or fourth group and the field attribute of the second group, the control module

first by adding the address of this element is as the driving table and the offset of the sixth group calculates the address whereby the means for storing the driving table is the address of the portion of the surface rendering of the first, second, third or fourth group,

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address at which the means for storing a management table is a field attribute of the second group,

then reads from the means for storing a management table the address portion of the surface rendering of the first, second, third or fourth group and the value of this attribute fields of the second group,

and then transmits to the display module, the address portion of the surface rendering of the first, second, third or fourth group, the value of the field attribute of the second group and this data item;

the display module includes means for storing items of data sent to the display module, control module, and a means for storing one field value attribute of the second group is transmitted to the display module control module with arbitrary (considered as a random element of the set) data item;

before displaying the data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element under control of the Commissioner of the table, contains the address of the portion of the surface rendering of the first, second, third or fourth group and the field attribute of the second group, on the surface of the display module, the display module

first receives from the control module, the address portion of the surface rendering of the first, second, third or fourth group, the value of this attribute fields of the second group and this data item

then remembers that the value of the field attribute of the second group in the means for memorizing the value of the field attribute of the second group and stores this data element in the means for storing data items to the address portion of the surface rendering of the first, second, third or fourth group,

and then periodically at high speed checks the value of the field attribute of the second group stored in the means for memorizing the value of the field attribute of the second group, on the equality of the terminator line management table to obtain a positive result of this test.

Obtained by carrying out the fourth invention, the technical result, namely

memorizing a display module of the data elements included in an arbitrary (considered as a random element of the set) rows of data, prior to the display of these data elements on the surface of the visa the implementation of the display module,

and

memorizing the display module complete line of the control table that allows the display module to start the display of data elements that make up the last saved display module data line,

and

memorizing control module management table describing the partitioning of a two-dimensional array of logical pixels of the color image to be presented on the surface of the display module, and many sections of surface rendering, composing the surface of the display module, respectively, on many fields and on many areas surface areas of visualization,

is due to the fact that

the device for implementing the method of visualization of raster data of the color image

comprises a control module and a display module connected with the control module,

is intended to represent the image data on the surface of a display module formed arranged in a predefined order of the parts of the surface of the imaging components of many sections of surface rendering, and

the control unit includes means for storing the image data, which are multi-color data and are on PLO the bone image data logical pixels of the color image, components of a set of logical pixels of the color image

each logical pixel of the color image is expressed by collecting data of the first group, the second data group and data of the third group, in characterizing the three-dimensional color space, the three normalized color coordinates respectively conditionally "first"conditionally "second" and conditionally "third" linearly independent of flowers,

the surface of the display module includes a surface rendering of the first group, the surface rendering of the second group, the surface rendering of the third group and the surface rendering of the fourth group,

in the control module in accordance with a predefined algorithm to calculate data of the fourth group, in characterizing the three-dimensional color space of any of the three normalized color coordinates of the achromatic color based on the data of the first, second and third groups has a function to calculate the data of the fourth group, and

for arbitrary (considered as a random element of the set) surface rendering of the first, second, third or fourth group, part of the surface of the display module, the display module has a function of converting d is the R respectively the first, the second, third or fourth group of luminous flux, respectively conditionally "first"conditionally "second"conditionally "third" or achromatic color, directed from this part of the surface rendering of the first, second, third or fourth group;

the control module has a function of forming data items, one-to-one corresponding to the predefined elements of the management table,

in the display module has a function to display the above data elements on the surface of the display module, and

mentioned management table describes the breakdown of a two-dimensional array of logical pixels of the color image and the set of surface patches visualization respectively on the field data comprising multiple data regions, and the parts of the surface of the imaging components of many areas surface areas of visualization, and

arbitrary (considered as a random element of the set) the data region is expressed in the form of a square matrix composed of one or multiple logical pixels of the color image are located next to each other in a two-dimensional array of logical pixels of the color image

the number of logical pixels of the color image, SOS is alausa arbitrary (considered as a random element of the set) the data area, pre-defined

arbitrary (considered as a random element of the set) the area of the surface sections visualization formed from one or more parts of the surface visualization, located next to each other within an imaginary square circumscribed around this area of the surface sections visualization

the parts of the surface visualization do not overlap,

the parts of the surface rendering and the centers of the imaginary squares described about these areas, surface areas of visualization, evenly distributed over the surface of the display module,

the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, pre-defined

each data region one-to-one corresponds to a region of the surface sections visualization

the order in which you placed in relation to each other in the plane of the image data of the geometric centers of the fields of data, one-to-one corresponding areas of the surface areas of visualization, coincides with the order in which you placed in relation to each other on the surface of a display module of the geometric center of the imaginary squares, described around these areas, surface areas of visualization,

each logical pixel of the color image that constitutes arbitrary (considered as a random element of the set) of the data area that corresponds to each part of the surface of the visualization included in the field of surface areas of visualization, one-to-one corresponding to the data region,

each logical pixel of a color image is included in an arbitrary (considered as a random element of the set) of the data area that corresponds to each portion of the surface rendering, which is part of the field surface areas of visualization, one-to-one corresponding to the data region,

the management table contains the elements of the set of elements of the management table and located in one or more rows comprising multiple rows of the table control,

the number of elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is predefined and does not exceed the largest number of data elements, the mapping of which is on the surface of the display module, the display module allows you to start at the same time,

p is visualname (considered as a random element of the set) logical pixel of the color image, included one or more areas of data corresponds to one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image is equal to the number of surface patches visualization corresponding to this logical pixel of the color image

element management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image corresponds to only one surface visualization corresponding to this logical pixel of the color image

arbitrary (considered as a random element of the set) the surface area of visualization, which is part of the field surface areas of visualization, matches one or more elements of the management table,

the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization, is equal to the number of logical pixels of the color image corresponding to the surface area of visualization

element management table corresponding to the producers who gnomo (considered as a random element of the set) the surface area of visualization, corresponds to only one logical pixel of the color image corresponding to the surface area of visualization

the number of surface areas of visualization, the relevant elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is equal to the number of these elements of the management table,

elements of a management table comprising the set of elements of the management table are one or more fields of a management table comprising a set of fields of the control table,

the elements of control tables, arbitrary components (considered as a random element of the set) field of the management table, comprise one or more rows of a management table comprising a continuous sequence of rows in the driving table,

the number of elements of the management table, arbitrary components (considered as a random element of the set) field of the management table is equal to the number of surface patches visualization, forming the parts of the surface of the imaging components of many areas surface areas of visualization,

the number of fields of the management table is equal to the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, and

arbitrary (considered as a random element of the set) field of the management table includes only one member of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization included in the composition of the parts of the surface visualization;

in the process of providing image data on the surface of the display module

the control module performs the function of forming the data elements consisting in formation at high speed of data elements constituting the multiple data elements, and

the display module performs the function of displaying on the surface of a display module of the data elements that displays at high speed of data elements generated control module, on the surface of the display module, and

each data element of the one-to-one corresponds to the element management table,

data elements that are one-to-one corresponding to the members of the management table, arbitrary components (considered as a random element of the set) line managing table form the data line, one-to-one corresponding to the row control the gates of the table

the order in which form the data elements constituting the data line, one-to-one corresponding to arbitrary (considered as a random element of the set) row of the control table that corresponds to the order in which the elements of the management table, one-to-one corresponding to these data elements are located in this row of the management table,

the order in which form the data line, forming multiple rows of data, and the order in which they display these rows of data on the surface of the display module correspond to the order in which row of the management table, one-to-one corresponding to these rows of data are in the control table, and

the data elements that make up an arbitrary (considered as a random element of the set) line data, begin to display on the surface visualization at the same time;

in the process of forming a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group,

the control module reads from the means for storing data of the image data respectively of the first, second and the third group, included in the logical pixel of the color image corresponding to this element of the management table, and assigns the data of the first, second or third group this data item;

in the process of forming a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the portion of the surface rendering of the fourth group, the control module

first reads from the means for storing data of the image data of the first, second and third groups that comprise the logical pixel of the color image corresponding to this element of the management table, and on the basis of these read out data of the first, second and third groups calculates the data of the fourth group,

and then assigns these calculated data of the fourth group this data item, and

in the process of calculating the data of the fourth group on the basis of these read out data of the first, second and third groups and in accordance with the aforementioned algorithm for calculating the data of the fourth group managing module

first compares between the read data of the first, second and third groups,

and then sets the data value of the fourth group is equal to the value of these data being read first, second or third group, not exceeding the values of these read data, respectively the second, third or first group and not exceeding the values of these read data, respectively, the third, first or second group;

in the process of display element data, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second, third or fourth group, on the surface of the display module

the display module performs the function of converting data respectively first, second, third or fourth group of luminous flux, respectively conditionally "first"conditionally "second"conditionally "third" or achromatic color, directed from this part of the surface rendering of the first, second, third or fourth group, and

when performing this function, the display module converts the data respectively first, second, third or fourth group contained in this data element, the light flux respectively conditionally "first"conditionally "second"conditionally "third" or achromatic color, directed from this part of the surface rendering of the first, second, third or fourth group;

each logical p is xelu color image one-to-one corresponds to the address of the logical pixel of the color image, characterizing the location data of the first, second or third group, are part of the logical pixel of the color image on the plane of the image data, and

the address where in the means for memorizing the image data are data of the first, second and third groups included in the arbitrary (considered as a random element of the set) logical pixel of the color image is equal to the address of the logical pixel of the color image is increased by the offset respectively the first, second or third group, which are predefined;

each part of the surface rendering one-to-one corresponds to the address of the land surface imaging, characterizing the location of the land surface visualization on the surface of the display module;

the control unit includes means for storing a management table in which elements of a management table arranged in series to each other and comprise a sequence of elements of the management table, and

element address management table, which is the first element in this sequence of elements of the management table, a pre-defined

address arbitrary (under review is considered as a random element of the set) element management table, which is not the first item in this sequence of elements of the management table is equal to the address of the last element in this sequence of elements of the management table, increased by the offset of the fourth group, which is pre-defined, and

the order in which elements are the driving table in a sequence of elements of the management table, determines the order in which the control unit generates the data items, one-to-one corresponding to these elements of the management table;

element management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image contains the address of the logical pixel of the color image, and

the number of memory cells in the means for storing the management table held by this logical address of a pixel of a color image pre-defined, and

the address at which the means for storing the driving table is the logical address of a pixel of the color image is equal to the address of this element of the management table, increased by the offset of the fifth group, which are predefined;

element management table corresponding to arbitrary (seeing as the e random element of the set) the surface area of visualization of the first, the second, third or fourth group, also contains the address of that portion of the surface rendering of the first, second, third or fourth group, and

the number of memory cells in the means for storing the management table held by the address portion of the surface rendering of the first, second, third or fourth group, pre-defined, and

the address at which the means for storing the driving table is the address of the portion of the surface rendering of the first, second, third or fourth group, equal to the address of this element of the management table, increased by the offset of the sixth group, which are predefined;

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization of the first, second, third or fourth group, also contains a field attribute of the first group, which contains, respectively, the first, second, third or fourth field value attribute of the first group, and

the first value field of the attribute of the first group is a sign of conformity to the surface area of visualization of the first group,

the second field value attribute of the first group is a sign of conformity to the surface area of visualization of the second group,

the third value of the field attribute of the first group is a sign of compliance with the surface rendering of the third group,

the fourth field value attribute of the first group is a sign of compliance with the surface rendering of the fourth group,

the number of memory cells in the means for storing a management table that occupied the field attribute of the first group, pre-defined, and

the address at which the means for storing a management table is a field attribute of the first group equal to the address of this element of the management table, increased by the offset of the seventh group, which are predefined;

element management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization of the first, second, third or fourth group, also contains a field attribute of the second group, which contains the first or the second value field of the attribute of the second group, and

the first value field of the attribute of the second group is a sign of a complete row of the management table,

arbitrary (considered as a random element of the set) element management table containing a complete line of the control table, is the last element in the row of the management table,

arbitrary (considered as a random element of the set) element management table, t is audica the last element in the row of the management table, contains a complete row of the management table,

the number of memory cells in the means for storing a management table that occupied the field attribute of the second group, pre-defined, and

the address at which the means for storing a management table is a field attribute of the second group is equal to the address of this element of the management table, increased by the offset of the eighth group, which are predefined;

prior to forming the data item, one-to-one corresponding to an element management table containing the logical address of a pixel of the color image and the field attribute of the first group and which is the first element in the sequence of the elements of the management table, the control module

first by adding the address of this element of the management table and the offset of the fifth group calculates the address at which the means for storing the driving table is the logical address of a pixel of a color image

then the result of adding the address of this element of the management table and the offset of the seventh group calculates the address at which the means for storing a management table is a field attribute of the first group,

then reads from the means for storing a management table that address oricheskogo pixel of the color image and the value of this attribute fields of the first group,

then it checks the value of the field attribute of the first group on equality grounds of compliance with the surface area of visualization of the first group on equality grounds of compliance with the surface area of visualization of the second group, on equality grounds of compliance with the surface rendering of the third group and the equality sign of compliance with the surface rendering of the fourth group,

and then, when the equality of the value of the field attribute of the first group the basis of compliance with the surface area of visualization of the first, second or third group,

in addition to this logical address of a pixel of the color image and displacement respectively of the first, second or third group calculates the address at which the means for storing data of the image data are respectively first, second or third group, are included in this logical pixel of the color image, and,

in case of equality of the value of the field attribute of the first group to sign the compliance portion of the surface rendering of the fourth group,

in addition to this logical address of a pixel of the color image and the offset of the first group calculates the address where in the means for memorizing the image data are data of the first group, are included in this log is centred on the pixel of the color image

in addition to this logical address of a pixel of the color image and the offset of the second group calculates the address where in the means for memorizing the image data are data of the second group, are included in this logical pixel of the color image, and

in addition to this logical address of a pixel of the color image and the offset of the third group calculates the address where in the means for memorizing the image data are data of the third group, are included in this logical pixel of the color image;

prior to forming the data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table containing the logical address of a pixel of the color image and the field attribute of the first group and not the first element in the sequence of the elements of the management table, the control module

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in this sequence of elements of the management table and the offset of the fourth group,

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address at which the medium is ve to remember the driving table is the logical address of a pixel of a color image

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address at which the means for storing a management table is a field attribute of the first group,

then reads from the means for storing a management table of the logical address of a pixel of the color image and the value of this attribute fields of the first group,

then it checks the value of the field attribute of the first group on equality grounds of compliance with the surface area of visualization of the first group on equality grounds of compliance with the surface area of visualization of the second group, on equality grounds of compliance with the surface rendering of the third group and the equality sign of compliance with the surface rendering of the fourth group,

and then, when the equality of the value of the field attribute of the first group the basis of compliance with the surface area of visualization of the first, second or third group,

in addition to this logical address of a pixel of the color image and displacement respectively of the first, second or third group calculates the address at which the means for storing data of the image data are respectively first, second or third group, are included in this logical pixel is Vatan image, and,

in case of equality of the value of the field attribute of the first group to sign the compliance portion of the surface rendering of the fourth group,

in addition to this logical address of a pixel of the color image and the offset of the first group calculates the address where in the means for memorizing the image data are data of the first group, are included in this logical pixel of the color image

in addition to this logical address of a pixel of the color image and the offset of the second group calculates the address where in the means for memorizing the image data are data of the second group, are included in this logical pixel of the color image, and

in addition to this logical address of a pixel of the color image and the offset of the third group calculates the address where in the means for memorizing the image data are data of the third group, are included in this logical pixel of the color image;

after formation of the element data, one-to-one corresponding element of the control table that contains the address of the portion of the surface rendering of the first, second, third or fourth group and the field attribute of the second group, the control module

first by adding the address of this element is as the driving table and the offset of the sixth group calculates the address whereby the means for storing the driving table is the address of the portion of the surface rendering of the first, second, third or fourth group,

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address at which the means for storing a management table is a field attribute of the second group,

then reads from the means for storing a management table the address portion of the surface rendering of the first, second, third or fourth group and the value of this attribute fields of the second group,

and then transmits to the display module, the address portion of the surface rendering of the first, second, third or fourth group, the value of the field attribute of the second group and this data item;

the display module includes means for storing items of data sent to the display module, control module, and a means for storing one field value attribute of the second group is transmitted to the display module control module with arbitrary (considered as a random element of the set) data item;

before displaying the data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element under control of the Commissioner of the table, contains the address of the portion of the surface rendering of the first, second, third or fourth group and the field attribute of the second group, on the surface of the display module, the display module

first receives from the control module, the address portion of the surface rendering of the first, second, third or fourth group, the value of this attribute fields of the second group and this data item

then remembers that the value of the field attribute of the second group in the means for memorizing the value of the field attribute of the second group and stores this data element in the means for storing data items to the address portion of the surface rendering of the first, second, third or fourth group,

and then periodically at high speed checks the value of the field attribute of the second group stored in the means for memorizing the value of the field attribute of the second group, on the equality of the terminator line management table to obtain a positive result of this test.

Brief description of drawings

Figure 1 shows the block diagram of the visual display device according to the first variant implementation of the present invention.

Figure 2 shows the block diagram of the visual display device according to the second variant implementation of this izobreteny is.

Figure 3 shows a block diagram of the visual display device according to the third variant of implementation of the present invention.

Figure 4 shows a structural diagram of a control module, which is part of the visual display device according to the first, second or third variant of implementation of the present invention.

Figure 5 shows a structural diagram of a display module, which is part of the visual display device according to the first variant implementation of the present invention.

Figure 6 shows a structural diagram of a display module, which is part of the visual display device according to the second variant of implementation of the present invention.

7 shows a structural diagram of a display module, which is part of the visual display device according to the third variant of implementation of the present invention.

On Fig shows a structural diagram of the input interface comprises a display module according to the first, second or third variant of implementation of the present invention.

Figure 9 shows a structural diagram of the indicator device comprises a display module according to the first variant implementation of the present invention.

Figure 10 shows the structural diagram of the indicator device is, part of a display module according to the second variant of implementation of the present invention.

Figure 11 shows the structural diagram of the indicator device comprises a display module according to the third variant of implementation of the present invention.

On Fig shows a block diagram of the cell display comprising pixel indicator red glow and a part of the indicator device according to the third variant of implementation of the present invention.

On Fig chart shows the locations of surface rendering of three species on the surface of the dot mosaic screen according to the first variant implementation of the present invention.

On Fig chart shows the locations of surface rendering of three species on the surface of the dot matrix screen according to the second variant of implementation of the present invention.

On Fig chart shows the locations of the surface rendering of the four species on the surface of the dot matrix screen according to the third variant of implementation of the present invention.

On Fig shows a block diagram of the cell display comprising pixel indicator green fluorescence and a part of a display module according to the third version of the OS the implement of the present invention.

On Fig shows a block diagram of the cell display comprising pixel indicator blue glow and a part of a display module according to the third variant of implementation of the present invention.

On Fig shows a block diagram of the cell display comprising pixel indicator white light and a part of a display module according to the third variant of implementation of the present invention.

On Fig shows a block diagram of the block is activated, part of the cells display comprising pixel indicator white light, according to the third variant of implementation of the present invention.

On Fig shows a conventional type of image data bit-by-bit display, explaining the operation of the present invention according to the first, second or third variant of implementation of the present invention.

On Fig shows the algorithm for computing data characterizing the three-dimensional color space RGB normalized color coordinate of the achromatic color according to the third variant of implementation of the present invention.

The implementation of the invention

As embodiments of the present invention can be considered an example of the construction of the visual display device according to the first, the WTO is WMD and third variants of the invention.

An example of designing the visual display device according to the first variant embodiment of the invention.

As an example of construction of the device visual display according to the first variant embodiment of the invention may be considered the device presented in figure 1. This device comprises a control module 100 and the display module 210, interconnected by bus lines "PCI BUS". The surface of the display module 210 is formed by a surface rendering of three kinds, is a surface rendering of the considered device visual display and is a surface point of the mosaic screen.

An example of designing the visual display device according to the second variant embodiment of the invention.

As an example of construction of the device visual display according to the second variant embodiment of the invention may be considered the device presented in figure 2. This device comprises a control module 100 and the display module 220, interconnected by bus lines "PCI BUS". The surface of the display module 220 is formed by a surface rendering of three kinds, is a surface rendering of the considered device visual display and performance, which defaults to a surface of the dot matrix screen.

An example of designing the visual display device according to the third variant embodiment of the invention.

As an example of construction of the device visual display according to the third variant embodiment of the invention may be considered the device presented in figure 3. This device comprises a control module 100 and the display module 230, interconnected by bus lines "PCI BUS". The surface of the display module 230 is formed by a surface rendering of the four species is a surface rendering of the considered device visual display and represents the surface of the dot matrix screen.

Example of construction of the control module, which is part of the visual display device according to the first, second or third variant embodiment of the invention.

As an example of construction of the control module 100, shown in figure 1, figure 2 or figure 3 may be considered microprocessor device presented in figure 4. A microprocessor device comprises a main processor 110, a chipset control logic 120, the storage device 130, a main memory device 140 and the base system 150 I / o. The main CPU 110 is connected with the chipset is sending logic 120 via bus lines BUS of the MAIN PROCESSOR. The storage device 130 is connected to the chipset logic 120 via line interface "INTERFACE STORAGE DEVICE". The main memory unit 140 is connected to the chipset control logic 120 via line interface "INTERFACE MAIN MEMORY DEVICE. And the base system 150 I / o connected to the chipset logic 120 via line interface "INTERFACE BASIC INPUT / OUTPUT". The main processor 110 is designed to execute a control program stored in the main memory device 140. The storage device 130 is intended for storage of the operating system, control program and the control table. The main memory unit 140 is designed to store image data, a control program, control tables, and variables included in the device status visual display presented on figure 1, figure 2 or figure 3. Basic system 150 I / o is designed to store a set of program I / o, through which the operating system and control program can interact with the various devices of the control module 100. The chipset logic 120 designation is for hardware support of the main processor. The inputs and outputs of the chipset logic 120 that is connected to the bus lines "PCI", are respectively the inputs and outputs of the control module 100 is designed to interface control module 100 with a display module 210, shown in figure 1, with the display module 220, shown in figure 2, or with the display module 230, shown in figure 3.

There is no need to describe in detail for the specialist principle of operation of the control module 100, which is a microprocessor-based device, it is enough to note the following. As the main processor 110, for example, can be used microprocessor Intel Pentium MMX with the core frequency of 266 MHz system bus 66 MHz. The chipset logic 120 to the microprocessor Intel Pentium MMX uses the chipset Intel 430TX PCIset, which provides data transfer on the PCI bus frequencies up to 66 MHz.

As the main processor 110 can be used and other microprocessors with greater performance.

The control unit 100 can also be made on the basis of a specialized microcontroller.

An example of a construction of a display module, which is part of the visual display device according to the first variant embodiment of the invention.

As an example of construction of a display module 210, pokazanno the figure 1, can be considered the device presented in figure 5. This device has an input interface 300 and the display device 410, interconnected by bus lines address "AM-AM6", line address bus "AM-AM", data bus lines "DM0-DM7", line management "DATA STROBE"line management "ACTIVATE" and line management "SYNC". Surface visualization of the indicator device 410 is a surface of a display module 210.

An example of a construction of a display module, which is part of the visual display device according to the second variant embodiment of the invention.

As an example of construction of the display module 220, shown in figure 2, may be considered a device is presented on Fig.6. This device has an input interface 300 and the display device 420, interconnected by bus lines address "AM-AM6", line address bus "AM7-AM15", data bus lines "DM0-DM7", line management "DATA STROBE"line management "ACTIVATE" and line management "SYNC". Surface visualization of the indicator device 420 is a surface of a display module 220.

An example of a construction of a display module, which is part of the visual display device according to the third version of the OS the implement of the invention.

As an example of construction of the display module 230, shown in figure 3, can be considered a device is presented on Fig.7. This device has an input interface 300 and the display device 430, interconnected by bus lines address "AM-AM6", line address bus "AM-AM", data bus lines "DM0-DM7", line management "DATA STROBE"line management "ACTIVATE" and line management "SYNC". Surface visualization of the indicator device 430 is a surface of a display module 230.

An example implementation of the input interface comprises a display module according to the first, second or third variant embodiment of the invention.

As an example of the input interface 300 shown in figure 5, figure 6 or figure 7, may be considered the device presented on Fig. This device contains a controller 301 PCI bus, the FIFO buffer 302, the FIFO buffer 303, the FIFO buffer 304, the generator 305 clock frequency, the element OR 306, adjustable divider 307 frequency element OR 308, D-flip-flop 309 to the input of the reset generator 310 clock frequency, D-flip-flop 311 to the input of the reset and adjustable divider 312 frequency.

As the controller 301 PCI bus is used chip "S5935" firm "ASS", and as the FIFO buffer 302, as the FIFO buffer 303 and the quality of the FIFO buffer 304 uses three chips "CY7C464" company "Cypress".

Generator 305 clock frequency and adjustable divider 307 frequencies are used to form the signal STROBE DATA. The input of the divider 307 frequency coupled to the output of the generator 305 clock frequency. The output of the divider 307 frequency is connected to the control line "DATA STROBE" and is the output signal STROBE DATA input interface 300. Generator 310 clock frequency and adjustable divider 312 frequencies are used for signal "SYNC". The input of the divider 312 frequency coupled to the output generator 310 clock frequency. The output of the divider 312 frequency is connected to the control line "SYNC" and is a signal output SYNCHRONIZATION input interface 300. The input data D0-D6" of the FIFO buffer 302 is connected to the outputs DQ0-DQ6" controller 301 PCI bus through bus DI0-DI6". The input data D0-D8" FIFO buffer 303 is connected to the outputs DQ7-DQ15" controller 301 PCI bus via bus "DI7-DI7". The input data D0-D8" FIFO buffer 304 are connected to the outputs "DQ23-DQ31" controller 301 PCI bus via bus "DI23-DI31". Enter "R nacertanije" reading the FIFO buffer 302, the input "R nacertanije" reading the FIFO buffer 303, the input "R nacertanije" reading the FIFO buffer 304 and input "C" sync D-flip-flop 309 to the input of the reset are interconnected and connected to the output of the adjustable divider 307 frequency. Enter "W with nacertanije" account b is Fera FIFO 302, enter "W with nacertanije" write FIFO 303, input "W with nacertanije" records of the FIFO buffer 304 and input "RDFIFO#" read controller 301 PCI bus are interconnected and connected to the output element OR 306. Information input D of D-flip-flop 309 with a reset input connected to the output "DQ0" FIFO buffer 304. Information input D of D-flip-flop 311 with a reset input connected to the output of the FF with nacertanije" FIFO buffer 304. Enter "R nacertanije" reset the D-flip-flop 309 with a reset input connected to the input "R nacertanije" reset the D-flip-flop 311 to the input of reset and is connected to the line RESET PCI bus. Input "1" of the item OR 306 is connected to the input "C" sync D-flip-flop 311 with a reset input connected to the output "BPCLK" controller 301 PCI bus. Input "1" of the item OR 308 is connected to the output "RDEMPTY" controller 301 PCI bus. Input "2" of the element OR 306 is connected to the output element OR 308. Input "2" of the element OR 308 is connected to the inverted output of D-flip-flop 311 to the input of the reset. Direct output of D-flip-flop 309 with a reset input connected to the control line "ACTIVATION" and is the output signal "ENABLE" input interface 300. The outputs DQ0-DQ6" the FIFO buffer 302 is connected to the bus lines address "AM-AM6" and are the output signals of the address "A-AM6 input interface 300. The outputs DQ0-DQ8" FIFO buffer 303 is connected to the bus lines address "AM-AM" and are output the AMI signals, address "AM-AM input interface 300. The outputs DQ1-DQ8" FIFO buffer 304 is connected to the data bus lines "DM0-DM7 and are output signals data DM0-DM7 input interface 300.

The input interface 300 operates as follows.

The data transmission control module 100, are presented in figure 4, in the input interface 300, written into the output FIFO buffer controller 301 PCI bus. At the output of "RDEMPTY" controller 301 PCI bus is set to a low level signal indicating that the output of the FIFO buffer controller 301 PCI bus has data that can be read. The high level output signal "FF with nacertanije" FIFO buffer 304 indicates that the FIFO buffer 304 is ready to write data to it.

If there is a high level signal at the output "RDEMPTY" controller 301 PCI bus and a high level output signal "FF with nacertanije" FIFO buffer 304 at a rising edge of the synchronization signal output BPCLK" controller 301 PCI bus on the inverted output of D-flip-flop 311 with the reset input a low level signal at the input "2" of the element OR 308. This signal on input "2" of the element OR 308 sets a low level signal at the output of the element OR 308. Thus, input "2" of the element OR 308 will be a low level signal as long as the FIFO controller 301 PCI bus will contain the data and to fill the FIFO buffer 304. When this drug is increased, the front of the synchronization signal output BPCLK" controller 301 PCI bus generates the rising edge of the signal at the output of the element OR 306, and falling edge of the synchronization signal output BPCLK" controller 301 PCI bus generates a drop-down front output element OR 306.

On a rising edge of the signal at the output of the element OR 306, the controller 301 PCI bus puts data outputs DQ0-DQ6", "DQ7-DQ15 and DQ23-DQ31", which are sent to corresponding inputs of the FIFO buffer 302, the FIFO buffer 303 and the FIFO buffer 304. These signals are valid until the next rising edge of the output signal "BPCLK" controller 301 PCI bus. In descending edge of the signal at the output of the element OR 306 FIFO buffer 302, the FIFO buffer 303 and the FIFO buffer 304 write data received at their inputs respectively D0-D6", "D0-D8 and D0-D8". The process of transferring data from the FIFO buffer controller 301 PCI bus into the FIFO 302, the FIFO buffer 303 and the FIFO buffer 304 periodically repeated until the buffer underrun FIFO controller 301 PCI bus or to fill the FIFO buffer 302, the FIFO buffer 303 and the FIFO buffer 304.

The low level of the output signal "FF with nacertanije" FIFO buffer 304 causes a high level signal on the inverted output of D-flip-flop 311 with reset input and a high level signal at the input "2" of the element OR 306. The high level signal at the input "2" of the element OR 306 appears later high-level signal at the input "1" of the item OR 306 and does not affect the appearance of the high-level signal at the output of the OR element 306, but affects the formation of the W low-level signal at the output of the OR element 306. The rising edge of the signal at the output of the element OR 306 latches the data on the outputs DQ0-DQ6", "DQ7-DQ15 and DQ23-DQ31" controller 301 PCI bus. These data will be referred to the outputs of the controller 301 of the PCI bus until such time as the rising edge of the output signal "BPCLK" controller 301 PCI bus will not take a high level signal on the information input D of D-flip-flop 311 to the input of the reset outputs of the trigger, which, ultimately, will lead to the formation of a low-level signal at the output of the OR element 306 and memory data inputs D0-D6", "D0-D8 and D0-D8" accordingly, the FIFO buffer 302, the FIFO buffer 303 and the FIFO buffer 304, issued by the controller 301 of the PCI bus. And only then on the next rising edge of the signal at the output of the element OR 306, the controller 301 PCI bus will expose new data.

When emptying the FIFO buffer controller 301 PCI bus on the rising edge of the signal at the output "BPCLK controller 301 PCI exhibits a high level output signal "RDEMPTY"that blocks the emergence of a low-level signal at the output of the OR element 306 to until the next "batch" of data will not be written into the FIFO controller 301 PCI bus and placed on its outputs DQ0-DQ6", "DQ7-DQ15 and DQ23-DQ31". Only after that on the next rising edge of the output signal "BPCLK" controller 301 PCI bus on its output "RDEMPTY" ustanavlivat the camping low level signal.

The periodic signal at the output of the generator 305 clock frequency generates output adjustable divider 307 frequency periodic signal STROBE DATA. On falling edge of signal STROBE DATA output adjustable divider 307 frequency FIFO buffer 302, the FIFO buffer 303 and the FIFO buffer 304 expose data on their outputs respectively DQ0-DQ6", "DQ0-DQ8 and DQ0-DQ8". This data is valid until the next falling edge triggered STROBE DATA output adjustable divider 307 frequency. On a rising edge of the signal "DATA STROBE" output adjustable divider 307 frequency to direct the output of D-flip-flop 309 to the input of the reset is generated, the value of the signal "ACTIVATE", equal to the value of the output signal "DQ0" FIFO buffer 304. Moreover, to prevent buffer underrun FIFO 302, the FIFO buffer 303 and the FIFO buffer 304 period pulse signal STROBE DATA output adjustable divider 307 frequency is set to less than the repetition period of pulses of the output signal "BPCLK" controller 301 PCI bus. The duty cycle signal STROBE DATA output adjustable divider 307 frequency equal to 2.

The periodic signal generator output 310 clock frequency generates output adjustable divider 312 frequency periodic signal "SYNC". The period is adowanie pulse signal "SYNC" output adjustable divider 312 frequency does not exceed the period of the pulse signal STROBE DATA output adjustable divider 307 frequency. The duty cycle signal "SYNC" output adjustable divider 312 frequency equal to 2.

Example of construction of the indicator device comprises a display module according to the first variant embodiment of the invention.

As an example of the construction of the indicator device 410, shown in figure 5, can be considered the device presented in Fig.9. The indicator device 410 includes a first decoder 500 addresses, the second decoder 600 addresses, a large number of cells display 710, a large number of cells display 720 and a large number of cells display 730. Cells display 710, cell display 720 and cell display 730, arranged one after another in an alternating, are odd rows of cells display in the indicator device 410. Cells display 730, cells display 720 and cell display 710, arranged one after another in an alternating, are the even rows of cells display in the indicator device 410.

In the device selected as a prototype for the device, the display module is configured 480 lines vertically and 128 pixels horizontally. Therefore, the number of cells display constituting an arbitrary string of cells display in the indicator device 410, is 128, and the number of rows of cells display in indie is tornam device 410 is 480.

Data on the outputs DQ0-DQ6" the FIFO buffer 302, shown in Fig, and on the outputs DQ0-DQ8" FIFO buffer 303, shown in Fig represent the address of the cell display, which is part of the indicator device 410, and the data on the outputs DQ1-DQ8" FIFO buffer 304, shown in Fig be converting this cell display-luminous stream.

The first decoder 500 is designed to address decode signal seven least significant bits of the address transmitted to the indicator device 410 via bus address "AM-AM6". Address inputs of the first decoder 500 addresses are address inputs of the indicator device 410 that is connected to the bus lines address "AM-AM6". Outputs"1", "2", ..., "128" the first decoder 500 addresses are output signals "1-X CELLS DISPLAY ROWS", "CHOICE 2 CELLS DISPLAY the STRING" ... "SELECT 128-X CELLS DISPLAY IN the ROWS, respectively.

The second decoder 600 is designed to address decode signals of the nine high-order bits of the address transmitted to the indicator device 410 via bus address "AM-AM". Address inputs of the second decoder 600 addresses are address inputs of the indicator device 410 that is connected to the bus lines address "AM-AM". Outputs"1", "2", ..., "480" the second decoder 600 addresses are output signals "1-TH ROW, SELECT the 2nd LINE ..., "SELECT 480 TH LINE" with the NGOs.

The input signal SELECTION 1-X CELLS INDICATING the ROW of the first cell zone 710 and the first cell indicating 730 located in the rows of cells display an indicator device 410, are interconnected and connected to the output "1" of the first decoder 500 addresses. The input signal SELECTION 2 CELLS INDICATING the ROW of second cells display 720 and second cells display 710, located in the rows of cells display an indicator device 410, are interconnected and connected to the output "2" of the first decoder 500 addresses and so on ... Finally, inputs the signal "SELECT 128-X CELLS DISPLAY IN ROW 128-x cells display 720 and 128-x cells display 710, located in the rows of cells display an indicator device 410, are interconnected and connected to the output 128 of the first decoder 500 addresses.

The input signal SELECTION 1-TH ROWS of cells display 710, cells display 720 and cells display 730, located one behind the other in an alternating 1-th row of cells display an indicator device 410, are interconnected and connected to the output "1" of the second decoder 600 addresses. The input signal SELECTION "2nd LINE" cells display 730, cells display 710 and cells display 720, located one behind the other in alternating order in the 2nd row of cells display an indicator device 410, are interconnected and connected to the output "2" vtoro what about the decoder 600 address, etc. ... Input signal SELECTION "480 TH LINE" cells display 730, cells display 720 and cells display 710, located one behind the other in an alternating 480-th row of cells display an indicator device 410, are interconnected and connected to the output "480" second decoder 600 addresses.

The same input data cells display 710, cells display 720 and cells display 730 are interconnected and are connected to the data bus lines "DM0-DM7" inputs data indicating device 410. The input signal STROBE DATA cells display 710, cells display 720 and cells display 730 are interconnected and are connected to the control line "DATA STROBE" signal input "DATA STROBE" indicator device 410. The input signal "ACTIVATE" cells display 710, cells display 720 and cells display 730 are interconnected and are connected to the control line "ENABLE" input signal "ACTIVATE" indicator device 410. Inputs signal "SYNC 2" cells display 710, cells display 720 and cells display 730 are interconnected and are connected to the control line "SYNC" input signal "SYNC" indicator device 410.

Example of construction of the indicator device comprises a display module, with the according to the second variant embodiment of the invention.

As an example of the construction of the indicator device 420 shown in Fig.6, it can be considered a device is presented on figure 10. The indicator device 420 includes a first decoder 500 addresses, the second decoder 600 addresses, a large number of cells display 710, a large number of cells display 720 and a large number of cells display 730. Cells display 710 and cell display 720, arranged one after another in an alternating, are odd rows of cells display in the indicator device 420. Cells display 720 and cell display 730, arranged one after another in an alternating, are the even rows of cells display in the indicator device 420.

In the device selected as a prototype for the device, the display module is configured 480 lines vertically and 128 pixels horizontally. Therefore, the number of cells display constituting an arbitrary string of cells display in the indicator device 420, is 128, and the number of rows of cells display in the indicator device 420 is equal to 480.

Data on the outputs DQ0-DQ6" the FIFO buffer 302, shown in Fig, and on the outputs DQ0-DQ8" FIFO buffer 303, shown in Fig represent the address of the cell display, which is part of the indicator device 420, and the data on the outputs DQ1-DQ8" FIFO buffer 304, pokazanova Fig, subject to the transformation of this cell display-luminous stream.

The first decoder 500 is designed to address decode signal seven least significant bits of the address transmitted to the indicator device 420 on the address bus "AM-AM6". Address inputs of the first decoder 500 addresses are address inputs of the indicator device 420, connected to the bus lines address "AM-AM6". Outputs"1", "2", ..., "128" the first decoder 500 addresses are output signals "1-X CELLS DISPLAY ROWS", "CHOICE 2 CELLS DISPLAY the STRING" ... "SELECT 128-X CELLS DISPLAY IN the ROWS, respectively.

The second decoder 600 is designed to address decode signals of the nine high-order bits of the address transmitted to the indicator device 420 on the address bus "AM-AM". Address inputs of the second decoder 600 addresses are address inputs of the indicator device 420, connected to the bus lines address "AM-AM". Outputs"1", "2", ..., "480" the second decoder 600 addresses are output signals "1-TH ROW, SELECT the 2nd LINE ..., "SELECT 480-TH ROWS, respectively.

The input signal SELECTION 1-X CELLS INDICATING the ROW of the first cell zone 710 and the first cell indicating 720 located in the rows of cells display an indicator device 420 are connected to each other and connected to the output "1" of the first decoder 500 addresses. the moves signal SELECTION 2 CELLS INDICATING the ROW of second cells display 720 and second cells display 730, located in the rows of cells display an indicator device 420 are connected to each other and connected to the output "2" of the first decoder 500 addresses and so on ... Finally, inputs the signal "SELECT 128-X CELLS DISPLAY IN ROW 128-x cells display 720 and 128-x cells display 730 located in the rows of cells display an indicator device 420 are connected to each other and connected with the release of "128" first decoder 500 addresses.

The input signal SELECTION 1-TH ROWS of cells display 710 and cells display 720, located one behind the other in an alternating 1-th row of cells display an indicator device 420 are connected to each other and connected to the output "1" of the second decoder 600 addresses. The input signal SELECTION "2nd LINE" cells display 720 and cells display 730, located one behind the other in alternating order in the 2nd row of cells display an indicator device 420 are connected to each other and connected to the output "2" of the second decoder 600 addresses etc ... Input signal SELECTION "480 TH LINE" cells display 720 and cells display 730, located one behind the other in an alternating 480-th row of cells display an indicator device 420 are connected to each other and connected to the output "480" second decoder 600 addresses.

The same input data cells display 710, cells display 720 and cells display 730 is connected between the Wallpaper and are connected to the data bus lines "DM0-DM7" inputs data indicating device 420. The input signal STROBE DATA cells display 710, cells display 720 and cells display 730 are interconnected and are connected to the control line "DATA STROBE" signal input "DATA STROBE" indicator device 420. The input signal "ACTIVATE" cells display 710, cells display 720 and cells display 730 are interconnected and are connected to the control line "ENABLE" input signal "ACTIVATE" indicator device 420. Inputs signal "SYNC 2" cells display 710, cells display 720 and cells display 730 are interconnected and are connected to the control line "SYNC" input signal "SYNC" indicator device 420.

Example of construction of the indicator device comprises a display module according to the third variant embodiment of the invention.

As an example of the construction of the indicator device 430 shown in Fig.7 can be considered the device is presented figure 11. The indicator device 430 includes a first decoder 500 addresses, the second decoder 600 addresses, a large number of cells display 710, a large number of cells display 720, a large number of cells display 730 and a large number of cells display 740. Cells display 710 and cell display 720, RA is required for each other in an alternating, are odd rows of cells display in the indicator device 430. Cells display 740 and cell display 730, arranged one after another in an alternating, are the even rows of cells display in the indicator device 430.

In the device selected as a prototype for the device, the display module is configured 480 lines vertically and 128 pixels horizontally. Therefore, the number of cells display constituting an arbitrary string of cells display in the indicator device 430, is 128, and the number of rows of cells display in the indicator device 430 is 480.

Data on the outputs DQ0-DQ6" the FIFO buffer 302, shown in Fig, and on the outputs DQ0-DQ8" FIFO buffer 303, shown in Fig represent the address of the cell display, which is part of the indicator device 430, and the data on the outputs DQ1-DQ8" FIFO buffer 304, shown in Fig be converting this cell display-luminous stream.

The first decoder 500 is designed to address decode signal seven least significant bits of the address transmitted to the indicator device 430 via bus address "AM-AM6". Address inputs of the first decoder 500 addresses are address inputs of the indicator device 430 that is connected to the bus lines address "AM-AM6". Outputs"1", "2", ..., "128" the first decoder 500 addresses are : the AMI signals "CHOICE 1-X CELLS DISPLAY ROWS", "The CHOICE of the 2 CELLS DISPLAY the STRING" ... "SELECT 128-X CELLS DISPLAY IN the ROWS, respectively.

The second decoder 600 is designed to address decode signals of the nine high-order bits of the address transmitted to the indicator device 430 via bus address "AM-AM". Address inputs of the second decoder 600 addresses are address inputs of the indicator device 430 that is connected to the bus lines address "AM-AM". Outputs"1", "2", ..., "480" the second decoder 600 addresses are output signals "1-TH ROW, SELECT the 2nd LINE ..., "SELECT 480-TH ROWS, respectively.

The input signal SELECTION 1-X CELLS INDICATING the ROW of the first cell zone 710 and the first cells display 740, located in the rows of cells display an indicator device 430, are interconnected and connected to the output "1" of the first decoder 500 addresses. The input signal SELECTION 2 CELLS INDICATING the ROW of second cells display 720 and second cells display 730 located in the rows of cells display an indicator device 430, are interconnected and connected to the output "2" of the first decoder 500 addresses and so on ... Finally, inputs the signal "SELECT 128-X CELLS DISPLAY IN ROW 128-x cells display 720 and 128-x cells display 730 located in the rows of cells display an indicator device 430 are connected to each other and connected with the release of "128" first what about the decoder 500 addresses.

The input signal SELECTION 1-TH ROWS of cells display 710 and cells display 720, located one behind the other in an alternating 1-th row of cells display an indicator device 430, are interconnected and connected to the output "1" of the second decoder 600 addresses. The input signal SELECTION "2nd LINE" cells display 740 and cells display 730, located one behind the other in alternating order in the 2nd row of cells display an indicator device 430, are interconnected and connected to the output "2" of the second decoder 600 addresses etc ... Input signal SELECTION "480 TH LINE" cells display 740 and cells display 730, located one behind the other in an alternating 480-th row of cells display an indicator device 430, are interconnected and connected to the output "480" second decoder 600 addresses.

The same input data cells display 710, cells display 720, cells display 730 and cells display 740 are interconnected and are connected to the data lines "DM0-DM7" inputs data indicating device 430. The input signal STROBE DATA cells display 710, cells display 720, cells display 730 and cells display 740 are interconnected and are connected to the control line "DATA STROBE" signal input "DATA STROBE" indicator device 430. The input signal "ACTIVATE" cells is indicatii 710, cells display 720, cells display 730 and cells display 740 are interconnected and are connected to the control line "ENABLE" input signal "ACTIVATE" indicator device 430. Inputs signal "SYNC 2" cells display 710, cells display 720, cells display 730 and cells display 740 are interconnected and are connected to the control line "SYNC" input signal "SYNC" indicator device 430.

Example build cells display comprising pixel indicator red glow, which is part of the indicator device according to the first, second or third variant embodiment of the invention.

All cells display 710 included in the indicator device 410, presented on Fig.9, the indicator device 420, presented in figure 10, or indicator device 430, presented on 11, arranged in the same way. As an example, build cells display 710 may be considered the device presented on Fig. This device is a cell of a display 710, which is the 1st cell display in the 1st row of cells display an indicator device 430. Cell display 710 contains the 800 block enable and pixel indicator 711 red glow. Block 800 aktivirovani is designed for signal activation pixel indicator 711 red glow. The input data block 800 is activated, are connected to the data bus lines "DM0-DM7" input cell data display 710. Input signal SELECTION "1st LINE" block 800 is activated, is connected to control line "SELECT the 1st LINE" input SELECTION "1st LINE" cell display 710. Input signal SELECTION 1-X CELLS DISPLAY IN the ROWS of the block 800 is activated, is connected to control line "SELECT 1-X CELLS DISPLAY the STRING" input "CHOICE 1-X CELLS DISPLAY IN the ROW of cells display 710. The input signal STROBE DATA block 800 is activated, is connected to control line "DATA STROBE" signal input "DATA STROBE" cell display 710. The input signal "SYNC" of the block 800 is activated, is connected to control line "SYNC" input signal "SYNC" of the cell display 710. The input signal "ACTIVATE" block 800 is activated, is connected to control line "ENABLE" input signal "ACTIVATE" cell display 710. The input signal "ACTIVATE the 1st PIXEL of the INDICATOR IN the 1st line of the" single-pixel indicator 711 red glow coupled to the output signal ACTIVATING the 1st PIXEL of the INDICATOR IN the 1st LINE of the block 800 is activated. The output pixel indicator 711 to the ACLs glow connected to the power source VCC.

As a single pixel indicator 711 red glow uses led red glow, which is formed by one or several closely spaced led crystals. The cathode of the led, the red glow is the input pixel indicator 711 red glow and the anode of the led, the red glow is the output of this pixel indicator 711 red glow.

The front surface of the pixel indicators 711 red-hot form parts "R" surface imaging, the location of which on the surface visualization of the indicator device 410, the indicator device 420 or indicator device 430 shown conditional on Fig, Fig or Fig respectively.

Example build cells display comprising pixel indicator green fluorescence, which is part of the indicator device according to the first, second or third variant embodiment of the invention.

All cells display 720 included in the indicator device 410, presented on Fig.9, the indicator device 420, presented in figure 10, or indicator device 430, presented on 11, arranged in the same way. As an example, build cells display 720 may be considered a device, as the e in Fig. This device is a cell of a display 720, which is the 2nd cell display in the 1st row of cells display an indicator device 430. Cell display 720 contains the 800 block enable and pixel indicator 721 green glow. Block 800 is designed to enable signal is activated, a single pixel indicator 721 green glow. The input data block 800 is activated, are connected to the data bus lines "DM0-DM7" input cell data display 720. Input signal SELECTION "1st LINE" block 800 is activated, is connected to control line "SELECT the 1st LINE" input SELECTION "1st LINE" cell display 720. Input signal SELECTION 2 CELLS INDICATING the ROW of the block 800 is activated, is connected to control line "SELECT 2 CELLS DISPLAY the STRING" input "SELECT 2 CELLS INDICATING the ROW of the cell display 720. The input signal STROBE DATA block 800 is activated, is connected to control line "DATA STROBE" signal input "DATA STROBE" cell display 720. The input signal "SYNC" of the block 800 is activated, is connected to control line "SYNC" input signal "SYNC" of the cell display 720. The input signal "ACTIVATE" block 800 is activated, is connected to line management the Oia "ENABLE" input signal "ACTIVATE" cell display 720. The input signal "ACTIVATE the 2nd PIXEL of the INDICATOR IN the 1st line of the" single-pixel indicator 721 green fluorescence coupled to the output signal ACTIVATING the 2nd PIXEL of the INDICATOR IN the 1st LINE of the block 800 is activated. The output pixel indicator 721 green fluorescence is connected to the power source VCC.

As a single pixel indicator 721 green fluorescence is led green fluorescence, which is formed by one or several closely spaced led crystals. The cathode of the led, the green glow is the input pixel indicator 721 green fluorescence, and the anode of the led, the green glow is the output of this pixel indicator 721 green glow.

The front surface of the pixel indicators 721 green glow form the sections "G" surface imaging, the location of which on the surface visualization of the indicator device 410, the indicator device 420 or indicator device 430 shown conditional on Fig, Fig or Fig respectively.

Example build cells display comprising pixel indicator blue glow, which is part of the indicator device according to the first, second or third variant embodiment of the invention.

All ball is s display 730, included in the indicator device 410, presented on Fig.9, the indicator device 420, presented in figure 10, or indicator device 430, presented on 11, arranged in the same way. As an example, build cells display 730 may be considered the device presented on Fig. This device is a cell of a display 730, which is the 2nd cell display in the 2nd row of cells display an indicator device 430. Cell display 730 contains the 800 block enable and pixel indicator 731 blue glow. Block 800 is designed to enable signal is activated, a single pixel indicator 731 blue glow. The input data block 800 is activated, are connected to the data lines "DM0-DM7" input cell data display 730. Input signal SELECTION "2nd LINE" block 800 is activated, is connected to control line "SELECT the 2nd LINE" input SELECTION "2nd LINE" cell display 730. Input signal SELECTION 2 CELLS INDICATING the ROW of the block 800 is activated, is connected to control line "SELECT 2 CELLS DISPLAY the STRING" input "SELECT 2 CELLS INDICATING the ROW of the cell display 730. The input signal STROBE DATA block 800 is activated, is connected to the line control DATA STROBE input signal is Ala "DATA STROBE" cell display 730. The input signal "SYNC" of the block 800 is activated, is connected to control line "SYNC" input signal "SYNC" of the cell display 730. The input signal "ACTIVATE" block 800 is activated, is connected to control line "ENABLE" input signal "ACTIVATE" cell display 730. The input signal "ACTIVATE the 2nd PIXEL of the INDICATOR IN the 2nd line of the" single-pixel indicator 731 blue glow coupled to the output signal ACTIVATING the 2nd PIXEL of the INDICATOR IN the 2nd LINE of the block 800 is activated. The output pixel indicator 731 blue glow is connected to the power source VCC.

As a single pixel indicator 731 blue glow is blue led glow, which is formed by one or several closely spaced led crystals. The cathode of the led, the blue glow is the input pixel indicator 731 blue glow and the anode of the led, the blue glow is the output of this pixel indicator 731 blue glow.

The front surface of the pixel indicators 731 blue glow forming areas "In" surface imaging, the location of which on the surface visualization of the indicator device 410, the indicator is on device 420 or indicator device 430 shown conditional on Fig, on Fig or Fig respectively.

Example build cells display comprising pixel indicator white light, part of the indicator device according to the third variant embodiment of the invention.

All cells display 740 included in the indicator device 430, presented on 11, arranged in the same way. As an example, build cells display 740 may be considered the device presented on Fig. This device is a cell of a display 740, which is the 1st cell display in the 2nd row of cells display an indicator device 430. Cell display 740 contains the 800 block enable and pixel indicator 741 white light. Block 800 is designed to enable signal is activated, a single pixel indicator 741 white light. The input data block 800 is activated, are connected to the data lines "DM0-DM7" input cell data display 740. Input signal SELECTION "2nd LINE" block 800 is activated, is connected to control line "SELECT the 2nd LINE" input SELECTION "2nd LINE" cell display 740. Input signal SELECTION 1-X CELLS DISPLAY IN the ROWS of the block 800 is activated, is connected to control line "SELECT 1-X CELLS DISPLAY the STRING" input "CHOICE 1-X CELLS Indyk is TION IN the ROW of cells display 740. The input signal STROBE DATA block 800 is activated, is connected to control line "DATA STROBE" signal input "DATA STROBE" cell display 740. The input signal "SYNC" of the block 800 is activated, is connected to control line "SYNC" input signal "SYNC" of the cell display 740. The input signal "ACTIVATE" block 800 is activated, is connected to control line "ENABLE" input signal "ACTIVATE" cell display 740. The input signal "ACTIVATE the 1st PIXEL of the INDICATOR IN the 2nd line of the" single-pixel indicator 741 white light coupled to the output signal ACTIVATING the 1st PIXEL of the INDICATOR IN the 2nd LINE of the block 800 is activated. The output pixel indicator 741 white light is connected to the power source VCC.

As a single pixel indicator 741 white light uses led white light, which is formed by one or several closely spaced led crystals. The cathode of the led white light is input pixel indicator 741 white light, and the anode of the led white light is the output of this pixel indicator 741 white light.

The front surface of the pixel indicatorof white light form the sections of the "W" surface rendering, the location on the surface of the imaging indicating device 430 shown conditional on Fig.

An example implementation of the block is activated, part of the cells display according to the first, second or third variant embodiment of the invention.

All blocks 800 activating constituent cells display 710, cells display 720 and cells display 730, shown in figure 9, figure 10 or figure 11, as well as all the blocks 800 activating constituent cells display 740, shown at 11, are arranged in the same way. As an example implementation of block 800 activation may be considered the device presented on Fig. This unit is unit 800 is activated, shown in Fig, part of the cells display 740, which is the 1st cell display in the 2nd row of cells display an indicator device 430, presented on 11. Block 800 is activated, presented at Fig, contains an element 801, the register-latch 802, shaper 803 signal is activated, the D-flip-flop 804 with the input set, the And gate 805, the register-latch 806, D-flip-flop 807, item, OR 808, D-flip-flop 809 with the reset input, the comparator 810, the And gate 811 and counter 812 with the reset input.

Enter "1" element 801 is input STROBE DATA block 800 is activated. Input "2" element 801 is input YOU THE PR of the 2nd LINE of the block 800 is activated. Enter "3" element 801 is input signal SELECTION 1-X CELLS DISPLAY IN the ROWS of the block 800 is activated. The inputs D0-D7 data register-latch 802 are connected to the data bus lines "DM0-DM7" inputs data block 800 is activated. Entrance "With" Gating register-latch 802 and input "C" sync D-flip-flop 804 to the input of the installation are interconnected and connected to the output element And 801. Information input D of D-flip-flop 804 to the input of the installation is connected to the common wire of the block 800 is activated with a signal of logical "0". Enter "1" element 805 is connected to the line "ENABLE" input signal "ACTIVATE" block 800 is activated. Input "2" element 805 is connected to the inverted output of D-flip-flop 804 to the input of the installation. Information input D of D-flip-flop 809 with a reset input coupled to the output element And 805. Enter "R nacertanije" reset the D-flip-flop 809 with a reset input connected to the output element OR 808. Enter "S nacertanije" installation D-flip-flop 804 to the input setup and input "1" of the item OR 808 are interconnected and connected to the inverted output of D-flip-flop 809 with reset input. The inputs D0-D7 data register-latch 806 is connected to the outputs DQ0-DQ7 data register-latch 802 through lines local bus data DB0-DB7". Entrance "With" Gating register-is adelchi 806 and enter "R" to reset the counter 812 with the reset input are interconnected and connected to the direct output of D-flip-flop 809 with reset input. The inputs A0-A7 of the comparator 810 is connected to the outputs DQ0-DQ7 data register-latch 806 through lines local bus data DR0-DR7". The inputs B0-B7 data comparator 810 is connected to the outputs DQ8-DQ15 data counter 812 with the reset input through the lines of the local data bus "DCT0-DCT7, which includes the data line connected to the outputs of the eight high bits of the sixteen-bit counter 812 with the reset input. Entrance "C" sync D-flip-flop 807, input "2" of the element OR 808, input "C" sync D-flip-flop 809 to the input of the reset and input "2" of the element, And 811 are interconnected and are connected to the control line "SYNC" input signal "SYNC" of the block 800 is activated. Information input D of D-flip-flop 807 and input "1" of the item And 811 are interconnected and connected to the output "A>In" comparator 810. The counting input T of the counter 812 with a reset input connected to the output element And 811. The input of the shaper 803 signal enable is connected to the direct output of D-flip-flop 807. The output driver 803 signal is activated by the output signal of the ACTIVATION of the 1st PIXEL of the INDICATOR IN the 2nd LINE of the block 800 is activated.

Block 800 is activated, presented at Fig, works as follows.

The high level signal at the output of element 801 And then and only then, to the Yes on input "1" element 802 is set to a high level signal "SELECT the 2nd ROW", input "2" element 801 is set to the high level signal "1-X CELLS DISPLAY ROWS", and input "3" element 801 is set to the high level signal "DATA STROBE". The high level signal "SELECT the 2nd line and the high level signal "1-X CELLS DISPLAY IN ROWS" means that the address bus "AM-AM6" and on the address bus "AM-AM" indicator device 430 exhibited address parcel "W" surface rendering of the fourth group index "2,1", shown conditional on Fig. The signal STROBE DATA" is a clock signal represents a sequence of pulses. Moreover, the high level signal "SELECT the 2nd LINE" to input "1" element 802 and a high level signal "1-X CELLS DISPLAY IN ROWS on input "2" element 801 is set on falling edge of signal STROBE DATA hold, at least until the next falling edge triggered STROBE DATA. Therefore, when the address bus "AM-AM6" and on the address bus "AM-AM" indicator device 430 exhibited address parcel "W" surface rendering of the fourth group index "2,1" at a rising edge of the signal "DATA STROBE" input "3" element 801, the output element 801 is formed by the rising edge of the signal and the next rising front of signal STROBE DATA NEPAD usamu front signal STROBE DATA output element 801 is formed drop-down front signal. The rising edge of the signal at the output of the element 801 And latches in the register-latch 802 data received at the inputs D0-D7" register-latch 802 connected to the bus data DM0-DM7". The rising edge of the signal at the output of the element 801 And, also, leads to an inverted output of D-flip-flop 804 with the input set to the high level signal at the input "2" element 805. The high level signal on the inverted output of D-flip-flop 804 with the input set is retained until a low level signal at the input "S nacertanije" installation D-flip-flop 804 to the input of the installation. The high level signal at the input "2" element 805 allows the formation of the output element And 805 high level signal in case of receiving the input of "1" element 805 of the high level signal "ACTIVATE". The high level signal "ENABLE" supplied to the input "1" of the item And 805 on a rising edge of the signal "DATA STROBE" if output "DQ0" buffer FIFO 304, shown in Fig, held a high signal. The high signal on output "DQ0" buffer FIFO 304 describes the complete line of the table control.

The polling signal "ENABLE" is performed on each rising edge of signal "SYNC". On the leading edge of the signal "SYNC" on the WMO is e "With" synchronization D-flip-flop 809 with the reset input to direct the output of D-flip-flop 809 with the reset input is set to a high level signal only in the case if the output of the element And 805 formed a high signal. At inverted output of D-flip-flop 809 with reset input a low level signal at the input "1" of the item OR 808 and to the input "S nacertanije" installation D-flip-flop 804 to the input of the installation. The next rising edge of signal "SYNC" drop-down front signal "SYNC"at the input "2" of the element OR 808, leads to the formation of the output element OR 808 low level signal, which resets the D-flip-flop 809 with reset input. While the direct output of D-flip-flop 809 with the reset input is formed by a low level signal, and the inverted output of D-flip-flop 809 with the reset input is formed a high level signal. The high level signal on the inverted output of D-flip-flop 809 with the reset input causes a high level signal at the input "R nacertanije" reset the D-flip-flop 809 with reset input and prepares the D-flip-flop 809 with the reset input to the next polling cycle signal "ACTIVATE". The low level of the input signal "S nacertanije" installation D-flip-flop 804 to the input of the installation leads to the formation of the inverted output of D-flip-flop 804 with the input set to the low level signal and, consequently, to the formation of the output element And 805 low level signal.

Nerasta the speaker front input "With the" Gating register-latch 806 latches data coming to the outputs D0-D7" register-latch 806 connected to the outputs DQ0-DQ7" register-latch 802. The rising edge of the input signal "R" reset counter 812 with the reset input resets this counter. The comparator 810 is constantly compares the value of the data on the inputs A0-A7" comparator 810, connected to the outputs DQ0-DQ7" register-latch 806, with the value of the data at the inputs B0-B7" comparator 810, connected to the outputs DQ8-DQ15" counter 812. The low level signal at the output "A>In" comparator 810 indicates that the data value on the inputs A0-A7" of the comparator 810 is less than or equal to the data values at the inputs B0-B7" comparator 810 and prevents the formation of the output element And 811 high level signal. The output "A>In" comparator 810 is set to a high level signal if the data value written to the register-latch 806, more data values on the outputs DQ8-DQ15" counter 812. The data value written to the register-latch 806 multiplied by 256, characterizes the duration of the high signal at the output "A>In" comparator 810, measured in periods of the signal "SYNC". The rising edge of the signal at the output of the element And 811 increments a counter 812 per unit. On each rising edge of signal "SYNC" to direct the output of D-flip-flop 807 is set to the signal level, which coincides with the level is ignal output "A> In" comparator 810. A high level signal to direct the output of D-flip-flop 807 allows the formation of a signal ACTIVATING the 1st PIXEL of the INDICATOR IN the 2nd LINE on the output driver 803 signal is activated. Through shown in Fig pixel indicator 741 white light, the input connected to the output driver 803 signal, electric current flows, generating directed from the front surface of this single indicator 741 white light luminous flux achromatic color.

An example of the display image data in the control module according to the first, second or third variant embodiment of the invention.

Fig illustrates the representation of the image data in the main memory device 140, shown in figure 4. The main memory unit 140 serves as a means for storing the image data. The image data are in the plane of the image data logical pixels "P" color image comprising a set of logical pixels "P" of the color image. Logical pixels "P" color image comprising a set of logical pixels "P" of a color image consists of a two-dimensional array of logical pixels "P" of the color image. To identify the logic is such pixel "P" of the color image in a two-dimensional array of logical pixels of the color image indexes are used from "1,1" to "d", " f". The first digit of the two-dimensional index of array to denote the row number and the second digit is the column number.

As shown in Fig, image data to be submitted on the surface visualization of the indicator device 410, presented on Fig.9, the indicator device 420, presented in figure 10, or indicator device 430, figure 11 presents are multicolor data. Each logical pixel "P" of the color image includes data "r" of the first group, the data "g" of the second group and the data "b" of the third group, in characterizing the three-dimensional RGB color space, respectively, the normalized color coordinate of red, normalized color coordinates of the green color and the normalized color coordinates of the blue color. When this data "r" of the first group, and the data "g" of the second group, and the data "b" of the third group can be represented in binary digit grid of eight bits of data, which corresponds to 24-bit color depth, which is encoded in each logical pixel "P" of the color image. Color images with a color depth of 24 bits or more is referred to as full-color. Each logical pixel "P" of such a color image can be characterized in three-dimensional color space is one of the more than 16 million colors.

Each logicheskom.html "R" color image one-to-one corresponds to the address of the memory cell in the main memory device 140, characterizing the location of the data byte "r" of the first group, the location of the byte data "g" of the second group or the location of the data byte "b" of the third group, are part of the logical pixel "P" of the color image on the plane of the image data. The address where the mainly operational storage device 140 are data "r" of the first group, the data "g" of the second group or the data "b" of the third group included in the arbitrary logical pixel "P" of the color image is equal to the address of the logical pixel "P" of the color image is increased by the offset respectively the first, second or third group, which is pre-defined.

An example implementation of point mosaic screen according to the first variant embodiment of the invention.

On Fig shows a block diagram illustrating an example of a location on the surface of the imaging indicating device 410, presented on Fig.9, surface areas of visualization of three types. Pixel indicators 711 red-hot pixel indicators 721 green fluorescence and pixel indicators 731 blue glow forming part respectively of cells display 710, cells display 720 and cells display 730, shown in Fig.9, form the point of the mosaic screen Indyk is Torno device 410. Shown conditional on Fig areas "R" surface rendering of the first group represent the front surface of the pixel indicators 711 red-hot areas "G" surface rendering of the second group represent the front surface of the pixel indicators 721 green fluorescence, and the plots "In" surface rendering of the third group are the front surface of the pixel indicators 731 blue glow.

Lots of "R" surface rendering of the first group, lots of "G" surface rendering of the second group and plots In" surface rendering of the third group is formed on the surface of the imaging indicating device 410 line plots the surface visualization comprising multiple rows of plots surface visualization. The spacing of these sites surface visualization in the rows area of the surface visualization equal to the spacing of the rows of the surface area of the imaging surface of the imaging indicating device 410. Surface visualization, forming on the surface of the imaging indicating device 410 any two adjacent line sections of surface rendering, offset in these lines the surfaces of visualization in relation to each other and thus located is received in this order, that any part of these two neighboring lines of the surface areas of visualization of three neighboring land surface imaging, bordering each other on the principle of each other, are located on the surface rendering this indicator device 410 at the vertices of an imaginary equilateral triangle and include the plot of "R" surface rendering of the first group, area "G" surface rendering of the second group and area "B" surface rendering of the third group.

Each pixel indicator 711 red glow, each pixel indicator 721 green glow or each pixel indicator 731 blue glow can be associated with arbitrary logical pixel "P" of the color image shown conditional on Fig, incorporating data "r" of the first group, the data "g" of the second group and the data "b" of the third group. Each pixel indicator 711 red glow, each pixel indicator 721 green glow or each pixel indicator 731 blue luminescence corresponding to an arbitrary logical pixel "P" of the color image can be activated for light emission, respectively, red, green or blue according to the information contained in this logical pixel "P" of tsvetovospriatia data "r" of the first group, data "g" of the second group or the data "b" of the third group, respectively. Therefore, each parcel "R" surface rendering of the first group, each parcel "G" surface rendering of the second group or each parcel "B" surface rendering of the third group can be used for visual presentation on the surface of the imaging indicating device 410, respectively data "r" of the first group, the data "g" of the second group or the data "b" of the third group being converted to luminous flux, respectively, red, green or blue color cast from this surface rendering.

A fragment of the chart presented on Fig, allows to judge about the mutual position of the surface sections visualization of three species on the entire surface of the imaging indicating device 410. Lots of "R" surface rendering of the first group, lots of "G" surface rendering of the second group and plots In" surface rendering of the third group, arranged one after another in an alternating, up to the surface visualization of the indicator device 410 of the odd rows of the surface sections visualization and parcels "B" surface rendering of the third group, the sections of the "R" surface rendering of the first group and the sections "G" surface rendering stroygruppy, located one after another in an alternating, up to the surface visualization of the indicator device 410 odd lines of the surface sections of the visualization. The number of rows of plots surface rendering surface rendering of the indicator device 410 is 480, and the number of surface areas of visualization, the components of an arbitrary string sections of surface rendering surface rendering of the indicator device 410, is 128. The total number of surface patches visualization components dot mosaic screen according to the first embodiment of the invention, is 61440.

The number one indicator 711 red glow, the number of pixel indicators 721 green fluorescence and the number of pixel indicators 731 blue glow forming on the surface of the dot mosaic screen of the indicator device 410 is a rectangular area composed of rows with the number of surface areas of visualization, a multiple of three, relate to each other, as numbers 1, 1 and 1, respectively. And when these pixel indicators 711 red-hot pixel indicators 721 green fluorescence and pixel indicators 731 blue glow are activated to emit light according equal importance to the "r" first FCU is dust, data "g" of the second group and the data "b" of the third group, respectively - luminance characteristics of these single indicators and characteristics of the blocks 800 is activated, part of the cells display 710, cells display 720 and cells display 730, are selected so that the entire surface of the imaging indicating device 410 perceived radiating light achromatic color. Namely, when one pixel indicator 711 red glow, one pixel indicator 721 green glow and one pixel indicator 731 blue glow, which are next to each other on the surface of the imaging indicating device 410 are activated to emit light according equal in magnitude to the "r" of the first group, the data "g" of the second group and the data "b" of the third group, respectively, the light from these three single indicators, because of the way the human vision system, is perceived by the observer as achromatic due to selective mixing of light of the three primary colors. This mixture of the primary colors of light is a ratio, essentially satisfying the equation, the white balance

Y=0,299R'+0,587G'+0,114B',

where

Y - the total brightness of the light whose color is perceived by the observer as achromatic;

R' is the brightness of light emitted by a pixel in which ektorom 711 red glow;

G' is the brightness of the light emitted by the pixel indicator 721 green fluorescence;

B' is the brightness of the light emitted by the pixel indicator 731 blue glow.

An example implementation of a dot matrix screen according to the second variant embodiment of the invention.

On Fig shows a block diagram illustrating an example of a location on the surface of the imaging indicating device 420, presented on figure 10, the surfaces visualization of three types. Pixel indicators 711 red-hot pixel indicators 721 green fluorescence and pixel indicators 731 blue glow forming part respectively of cells display 710, cells display 720 and cells display 730, shown in figure 10, to form a dot matrix screen indicator device 420. Shown conditional on Fig areas "R" surface rendering of the first group represent the front surface of the pixel indicators 711 red-hot areas "G" surface rendering of the second group represent the front surface of the pixel indicators 721 green fluorescence, and the plots "In" surface rendering of the third group are the front surface of the pixel indicators 731 blue glow.

The sections of the "R" of the surface provide the purpose of the first group, the sections "G" surface rendering of the second group and plots In" surface rendering of the third group is formed on the surface of the imaging indicating device 420 two-dimensional matrix surface areas of visualization. The spacing of these surface areas of visualization in the lines of this two-dimensional matrix surface areas of visualization equal to the spacing of these sites surface visualization in the columns of this two-dimensional matrix plots of surface rendering.

Each pixel indicator 711 red glow, each pixel indicator 721 green glow or each pixel indicator 731 blue glow can be associated with arbitrary logical pixel "P" of the color image shown conditional on Fig, incorporating data "r" of the first group, the data "g" of the second group and the data "b" of the third group. Each pixel indicator 711 red glow, each pixel indicator 721 green glow or each pixel indicator 731 blue luminescence corresponding to an arbitrary logical pixel "P" of the color image can be activated for light emission, respectively, red, green or blue according to the information contained in this logical pixel "P" of a color image is Oia data "r" of the first group, data "g" of the second group or the data "b" of the third group, respectively. Therefore, each parcel "R" surface rendering of the first group, each parcel "G" surface rendering of the second group or each parcel "B" surface rendering of the third group can be used for visual presentation on the surface of the imaging indicating device 420, respectively data "r" of the first group, the data "g" of the second group or the data "b" of the third group being converted to luminous flux, respectively, red, green or blue color cast from this surface rendering.

A fragment of the chart presented on Fig, allows to judge about the mutual position of the surface sections visualization of three species on the entire surface of the imaging indicating device 420. Lots of "R" surface rendering of the first group and the sections "G" surface rendering of the second group, located one behind the other in alternate order form on the surface of the imaging indicating device 420 odd rows of the two-dimensional matrix surface areas of visualization and parcels "G" surface rendering of the second group and plots In" surface rendering of the third group, arranged one after another in an alternating, up to powernationalist indicator device 420 odd lines of the two-dimensional matrix surface areas of visualization. In this case the points "R" surface rendering of the first group and the sections "G" surface rendering of the second group, located one behind the other in alternate order form on the surface of the imaging indicating device 420 odd columns of the two-dimensional matrix surface areas of visualization and parcels "G" surface rendering of the second group and plots In " surface rendering of the third group, arranged one after another in an alternating, up to the surface visualization of the indicator device 420, the even-numbered columns of the two-dimensional matrix surface areas of visualization. The number of rows of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 420 is 480, and the number of columns of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 420 is 128. The total number of surface patches visualization components dot matrix screen according to the second variant of the invention, is 61440.

The number one indicator 711 red glow, the number of pixel indicators 721 green fluorescence and the number of pixel indicators 731 blue glow forming surface visualization of the indicator device 420, correlating the camping among themselves, as numbers 1, 2, and 1 respectively. And when these pixel indicators 711 red-hot pixel indicators 721 green fluorescence and pixel indicators 731 blue glow are activated to emit light according equal importance to the "r" of the first group, the data "g" of the second group and the data "b" of the third group, respectively - luminance characteristics of these single indicators and characteristics of the blocks 800 is activated, part of the cells display 710, cells display 720 and cells display 730, are selected so that the entire surface of the imaging indicating device 420 perceived radiating light achromatic color. Namely, when one pixel indicator 711 red glow, two single-pixel indicator 721 green glow and one pixel indicator 731 blue glow, which are next to each other on the surface of the imaging indicating device 420 are activated to emit light according equal in magnitude to the "r" of the first group, the data "g" of the second group and the data "b" of the third group, respectively, the light from these four pixel indicators, because of the way the human vision system, is perceived by the observer as achromatic due to selective mixing of light of the three primary colors. Such smeshennaya primary colors is a ratio, essentially satisfying the equation, the white balance

Y=0,299R'+(0,587/2)G'+(0,587/2)G+0,114B',

where

Y - the total brightness of the light whose color is perceived by the observer as achromatic;

R' is the brightness of the light emitted by the pixel indicator 711 red glow;

G' is the brightness of light emitted from the first pixel indicator 721 green fluorescence;

G - brightness of light emitted from the second pixel indicator 721 green fluorescence;

In' the brightness of the light emitted by the pixel indicator 731 blue glow.

An example implementation of a dot matrix screen according to the third variant embodiment of the invention.

On Fig shows a block diagram illustrating an example of a location on the surface of the imaging indicating device 430, figure 11 presents plots of the surface rendering of the four types. Pixel indicators 711 red-hot pixel indicators 721 green glow, pixel indicators 731 blue glow and pixel indicators 741 white light, forming part respectively of cells display 710, cells display 720, cells display 730 and cells display 740, shown at 11, to form a dot matrix screen indicator device 430. Shown conditional on Fig areas "R" surface visuals is the first group represent the front surface of the pixel indicators 711 red glow, the sections "G" surface rendering of the second group represent the front surface of the pixel indicators 721 green fluorescence, sections "B" surface rendering of the third group are the front surface of the pixel indicators 731 blue glow, and the sections of the "W" surface rendering of the fourth group represents the front surface of the pixel indicators 741 white light.

Lots of "R" surface rendering of the first group, lots of "G" surface rendering of the second group, the areas "B" surface rendering of the third group and the sections of the "W" surface rendering of the fourth group is formed on the surface of the imaging indicating device 430 two-dimensional matrix surface areas of visualization. The spacing of these surface areas of visualization in the lines of this two-dimensional matrix surface areas of visualization equal to the spacing of these sites surface visualization in the columns of this two-dimensional matrix plots of surface rendering.

Each pixel indicator 711 red glow, each pixel indicator 721 green fluorescence, each pixel indicator 731 blue glow or each pixel indicator 741 white light can be supplied in matched is of arbitrary logical pixel "P" of the color image, shown conditional on Fig, incorporating data "r" of the first group, the data "g" of the second group and the data "b" of the third group. Each pixel indicator 711 red glow, each pixel indicator 721 green glow or each pixel indicator 731 blue luminescence corresponding to an arbitrary logical pixel "P" of the color image can be activated for light emission, respectively, red, green or blue according to the information contained in this logical pixel "P" of the color image data "r" of the first group, the data "g" of the second group or the data "b" of the third group, respectively. And each pixel indicator 741 white light can be activated for light emission achromatic color according to the "w" of the fourth group, in characterizing the three-dimensional color space RGB normalized color coordinate of the achromatic color. Data "w" of the fourth group can be calculated on the basis of data "r" of the first group, the data "g" of the second group and the data "b" of the third group. Therefore, each parcel "R" surface rendering of the first group, each parcel "G" surface rendering of the second group, each parcel "B" surface rendering of the third group or for each section of the "W" surface rendering fourth is the group on the surface of the display module 230, shown in figure 3, can be used for the visual representation on this surface data visualization "r" of the first group, the data "g" of the second group, data "b" of the third group or data "w" of the fourth group, respectively, converted to luminous flux, respectively, red, green, blue or achromatic color, directed from this surface rendering.

The algorithm, shown in Fig, determines the order of evaluation data "w" of the fourth group, which represents the normalized color coordinate of the achromatic color. In accordance with this algorithm as data "w" of the fourth group, in characterizing the three-dimensional color space RGB normalized color coordinate of the achromatic color, you accept these "r" of the first group, the data "g" of the second group or the data "b" of the third group contained in the logical pixel "P" of the color image with indices h,q, characterizing the three-dimensional color space RGB normalized color coordinates respectively of red, green or blue. The indices h,q" logical pixel "P" of the color image can be changed from "1,1" to "d", " f", where "d" and "f" respectively the number of rows and number of columns of the two-dimensional logical matrix of pixels of the color image shown uslovima Fig. According to this algorithm calculation data "w" of the fourth group the data value "w" of the fourth group, calculated on the basis of data contained in the logical pixel "P" of the color image with indices h,q", is set equal to the value contained in this logical pixel "P" of the color image data "r" of the first group, the data "g" of the second group or the data "b" of the third group, not to exceed the values contained in this logical pixel "P" of the color image data "g" of the second group, data "b" of the third group or data "r" of the first group, respectively, and do not exceed the values contained in this logical pixel "P" of the color image data "b" of the third group, the data "r" of the first group or the data "g" of the second group, respectively.

A fragment of the chart presented on Fig, allows to judge about the mutual position of the surface sections visualization of the four species on the entire surface of the imaging indicating device 430. Lots of "R" surface rendering of the first group and the sections "G" surface rendering of the second group, located one behind the other in alternate order form on the surface of the imaging indicating device 430 odd rows of the two-dimensional matrix surface areas of visualization, and the sections of the "W" surface rendering even what ertai groups and sites "In the" surface rendering of the third group, located one after another in an alternating, up to the surface visualization of the indicator device 430 odd lines of the two-dimensional matrix surface areas of visualization. In this case the points "R" surface rendering of the first group and the sections of the "W" surface rendering of the fourth group, arranged one after another in an alternating, up to the surface visualization of the indicator device 430 odd columns of the two-dimensional matrix surface areas of visualization and parcels "G" surface rendering of the second group and plots In " surface rendering of the third group, arranged one after another in an alternating, up to the surface visualization of the indicator device 430, the even-numbered columns of the two-dimensional matrix surface areas of visualization. The number of rows of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 430 is 480, and the number of columns of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 430 is 128. The total number of surface patches visualization components dot matrix screen according to the third variant embodiment of the invention, is 61440.

The number one indicator 711 red glow to the number of pixel indicators 721 green glow the number of pixel indicators 731 blue glow and the pixel number of indicators 741 white light, forming a surface rendering of the indicator device 430, relate to each other, as numbers 1, 1, 1 and 1, respectively. And when these pixel indicators 711 red-hot pixel indicators 721 green glow, pixel indicators 731 blue glow and pixel indicators 741 white light are activated to emit light according equal importance to the "r" of the first group, the data "g" of the second group, data "b" of the third group and to the "w" of the fourth group respectively - luminance characteristics of these single indicators and characteristics of the blocks 800 is activated, part of the cells display 710, cells display 720, cells display 730 and cells display 740, are selected so that the entire surface visualization the indicator device 430 perceived radiating light achromatic color. Namely, when one pixel indicator 711 red glow, one pixel indicator 721 green glow and one pixel indicator 731 blue glow, which are next to each other on the surface of the imaging indicating device 430 are activated to emit light according equal in magnitude to the "r" progroup, data "g" of the second group and the data "b" of the third group, respectively, the light from these three single indicators, because of the way the human vision system, is perceived by the observer as achromatic due to selective mixing of light of the three primary colors. This mixture of the primary colors of light is a ratio, essentially satisfying the equation, the white balance

Y=0,299R'+0,587G'+0,114B',

where

Y - the total brightness of the light whose color is perceived by the observer as achromatic;

R' is the brightness of the light emitted by the pixel indicator 711 red glow;

G' is the brightness of the light emitted by the pixel indicator 721 green fluorescence;

B' is the brightness of the light emitted by the pixel indicator 731 blue glow.

The brightness of the light emitted by the pixel indicator 741 white light, can be set on the basis of equations

Y'=iY,

where

Y' is the brightness of the light emitted by the pixel indicator 741 white light;

Y - the total brightness of the light emitted by the pixel indicator 711 red glow, pixel indicator 721 green fluorescence and single-pixel indicator 731 blue glow color which is perceived by the observer as achromatic;

i - factor, which is chosen empirically and pre which is a real number, for example of 0.333.

An example definition of a management table according to the first, second or third variant embodiment of the invention.

Before submitting the image data on the surface visualization of the indicator device 410, presented on Fig.9, the indicator device 420, presented in figure 10, or indicator device 430, presented on 11 determine the control table, which describes the partitioning of a two-dimensional array of logical pixels of the color image shown conditional on Fig, and many sections of surface rendering shows conditional on Fig, Fig or Fig, respectively in the field of data comprising multiple data regions, and the parts of the surface of the imaging components of many areas surface areas of visualization. The main memory device 140, shown in figure 4, is used as a means for storing a management table.

Moreover, an arbitrary region of data is expressed in the form of a square matrix composed of one or multiple logical pixels "P" color image located next to each other in a two-dimensional array of logical pixels "P" of the color image. The number of logical pixels "P" of the color image components produced by the free data area, pre-defined. An arbitrary region of the surface areas of visualization formed from one or more parts of the surface visualization, located next to each other within an imaginary square circumscribed around this area sections of surface rendering. The parts of the surface visualization do not overlap. The parts of the surface rendering and the centers of the imaginary squares described about these areas, surface areas of visualization, evenly distributed over the surface visualization of the indicator device 410, the indicator device 420 or indicator device 430. The amount of surface area of the visualization components of an arbitrary region of the surface areas of visualization, pre-defined. Each data region one-to-one corresponds to the area of the surface areas of visualization. The order in which you placed in relation to each other in the plane of the image data of the geometric centers of the fields of data, one-to-one corresponding areas of the surface areas of visualization, coincides with the order in which you placed in relation to each other on the surface of the imaging indicating device 410, the indicator device 420 or indicator device 430 geometrical centers of obrazuemyh squares, described around these areas, surface areas of visualization. Each logical pixel "P" of the color image included in the arbitrary data area corresponds to each part of the surface of the visualization included in the field of surface areas of visualization, one-to-one corresponding to the data region. Each logical pixel "P" of a color image is included in an arbitrary region of data that corresponds to each portion of the surface rendering, which is part of the field surface areas of visualization, one-to-one corresponding to the data region.

In addition, the management table contains the elements of the set of elements of the management table and located in one or more rows comprising multiple rows of the table control. The number of elements of the management table, the components of an arbitrary row of the management table is predefined and does not exceed the largest number of data elements, the mapping of which is on the surface visualization of the indicator device 410, the indicator device 420 or indicator device 430 is the indicator device allows you to start at the same time. Arbitrary logical pixel "P" of the color image included in the one or more the data regions, matches one or more elements of the management table. The number of elements of the management table corresponding to an arbitrary logical pixel "P" of the color image is equal to the number of surface patches visualization corresponding to this logical pixel "P" of the color image. Element management table corresponding to an arbitrary logical pixel "P" of the color image corresponds to the surface area of the visualization corresponding to this logical pixel color image. Arbitrary surface rendering, which is part of the field surface areas of visualization, matches one or more elements of the management table. The number of elements of the management table corresponding to an arbitrary portion of the surface rendering is equal to the number of logical pixels of the color image corresponding to the surface area of visualization. Element management table corresponding to an arbitrary portion of the surface visualization corresponds to the logical pixel "P" of the color image corresponding to the surface area of visualization. The number of surface areas of visualization, the relevant elements of the management table, the components of an arbitrary row of the management table is equal to the number of these elements of the management table. Elements of a management table comprising the set of elements of the management table are one or more fields of a management table comprising a set of fields of the control table. Elements of the management table, the components of an arbitrary field of the management table, comprise one or more rows of a management table comprising a continuous sequence of rows in the driving table. The number of elements of the management table, the components of an arbitrary field of the management table is equal to the number of surface patches visualization, forming the parts of the surface of the imaging components of many areas surface areas of visualization. The number of fields of the management table is equal to the number of logical pixels "P" of the color image components of an arbitrary region of data. An arbitrary field of the management table includes only one member of the management table corresponding to an arbitrary portion of the surface of the visualization included in the composition of the parts of the surface rendering.

The management table corresponding to the above characteristics, allows to describe virtually any decomposition of the set of logical pixels "P" color image and many sections of surface rendering respectively on many areas of the it data and in many areas surface areas of visualization.

Each logical pixel "P" of the color image one-to-one corresponds to the address of the logical pixel "P" of the color image, characterizing the location data of the first, second or third group, are part of the logical pixel "P" of the color image on the plane of the image data.

Each part of the surface rendering one-to-one corresponds to the address of the land surface imaging, characterizing the location of the surface rendering surface rendering of the indicator device 410, the indicator device 420 or indicator device 430.

The elements of control tables are located in the main memory unit 140 sequentially one after another and comprise a sequence of elements of the management table. Element address management table, which is the first element in this sequence of elements of control table previously defined. Address arbitrary element management table, which is not the first item in this sequence of elements of the management table is equal to the address of the last element in this sequence of elements of the management table, increased by the offset of the fourth group, which has preliminarily is defined. The order in which elements are the driving table in a sequence of elements of the management table, determines the order in which the control unit generates the data items, one-to-one corresponding to these elements of the table control.

To provide a mechanism of addressing data "r" of the first group, the data "g" of the second group and the data "b" of the third group contained in logical pixels "P" of the color image shown conditional on Fig, according to the first, second or third variant embodiment of the invention, each element of the management table contains a field attribute of the first group. For the first and second embodiments of the invention, the element management table containing address parcel "R" surface rendering of the first group, address parcel "G" surface rendering of the second group or address parcel "B" surface rendering of the third group contains the attribute field of the first group, which contains, respectively, the first, second or third value of the field attribute of the first group. For the third variant embodiment of the invention the control element of the table that contains the address of the site "R" surface rendering of the first group, address parcel "G" surface rendering of the second group, address parcel "B" surface rendering of the third group is whether or not the address of the site "W" surface rendering of the fourth group, contains a field attribute of the first group, which contains, respectively, the first, second, third or fourth field value attribute of the first group. The first value field of the attribute of the first group is a sign of compliance with the section "R" surface rendering of the first group. The second field value attribute of the first group is a sign of conformity to section "G" of the surface rendering of the second group. The third field value attribute of the first group is a sign of compliance with the section "B" surface rendering of the third group. The fourth field value attribute of the first group is a sign of compliance with the section "W" surface rendering of the fourth group.

To provide a mechanism of differentiation row of the management table stored in the main memory device 140, each element of the management table contains a field attribute of the second group, which contains the first or the second value field of the attribute of the second group. The first value field of the attribute of the second group is a sign of a complete row of the management table, and an arbitrary element of a management table containing a complete line of the control table, is the last element in the row of the management table, and an arbitrary element of the management table, which is the last e is the element in the row of the management table, contains a complete row of the management table. Complete line of the control table is used when forming the input interface 300 presented on Fig, signal "ACTIVATE".

The number of memory cells in the main memory device 140, occupied by an arbitrary logical address of pixel "P" of the color image pre-defined. The number of memory cells in the main memory device 140, occupied arbitrary field attribute of the first group previously defined. The address where the mainly operational storage device 140 is a logical address of pixel "P" of color images contained in any element of the management table is equal to the address of this element of the management table, increased by the offset of the fifth group, which is pre-defined. The address where the mainly operational storage device 140 is the attribute of the first group contained in any element of the management table is equal to the address of this element of the management table, increased by the offset of the seventh group, which is pre-defined.

The number of memory cells in the main memory unit 140 held by the arbitrary address parcel "R"surface rendering of the first group, the address of the arbitrary section "G" of the surface rendering of the second group or the address of an arbitrary section In the" surface rendering of the third group according to the first, second or third variant embodiment of the invention, pre-defined and is equal to two (2 bytes). The number of memory cells in the main memory device 140, occupied by the address of the arbitrary section "W" surface rendering of the fourth group according to the third variant embodiment of the invention, also pre-determined and equal to two (2 bytes). The number of memory cells in the main memory device 140, occupied arbitrary field attribute of the second group, pre-defined and is equal to one (1 byte). The address where the mainly operational storage device 140 is the address of the portion of the surface rendering "R" of the first group, the address portion of the surface rendering "G" of the second group or address parcel "B" surface rendering of the third group contained in any element of a management table according to the first, second or third variant embodiment of the invention, is equal to the address of this element of the management table, increased by the offset of the sixth group, which is pre-defined. The address where the mainly operational zapomina the future device 140 is the address of the portion of the surface rendering "R" of the first group, address parcel surface visualization "G" of the second group, address parcel "B" surface rendering of the third group or the address of the site "W" surface rendering of the fourth group contained in any element of a management table according to the third variant embodiment of the invention, is equal to the address of this element of the management table, increased by the offset of the sixth group, which is pre-defined. The address where the mainly operational storage device 140 is an arbitrary field attribute of the second group contained in any element of the management table is equal to the address of this element of the management table, increased by the offset of the eighth group, which is pre-defined.

The youngest of seven bit address portion of the surface rendering "R" of the first group, the youngest seven bits of the address portion of the surface rendering "G" of the second group and the youngest seven bit address parcel "B" surface rendering of the third group characterize respectively the numbers of cells display 710, cell numbers display 720 and the number of cells display 730 in the rows of cells display an indicator device 410 or indicator device 420. In addition, the youngest of seven bit address portion of the surface rendering "R" of the first group, the youngest seven bits of the address part of the surface of visuals is the "G" of the second group, the youngest of seven bit address parcel "B" surface rendering of the third group and the youngest seven bit address parcel "W" surface rendering of the fourth group characterize respectively the numbers of cells display 710, cell numbers display 720, numbers of cells display 730 and cell numbers indicating 740 in the rows of cells display an indicator device 430.

Senior nine bit address portion of the surface rendering "R" of the first group, senior nine bit address portion of the surface rendering "G" of the second group and senior nine bit address parcel "B" surface rendering of the third group is characterized by the number of rows of cells display, comprising, respectively, the cells display 710, cell display 720 and cell display 730 indicator device 410 or indicator device 420. In addition, senior nine bit address portion of the surface rendering "R" of the first group, senior nine bit address portion of the surface rendering "G" of the second group, senior nine bit address parcel "B" surface rendering of the third group and senior nine bit address parcel "W" surface rendering of the fourth group is characterized by the number of rows of cells display, comprising, respectively, the cells display 710, cell display 720, cells display 730 and cell display 740 indicator device 30.

The value of the field attribute of the second group, describing the complete line of the control table is 080h in hexadecimal notation.

An example of aligning elements of control tables and data elements to be displayed on the surface of a display module according to the first, second or third variant embodiment of the invention.

In the control module 100, shown in figure 1, the control module 100, shown in figure 2, and the control module 100, shown in figure 3, has a function of forming data items, one-to-one corresponding to the predefined elements of the management table.

In the display module 210, shown in figure 1, the display module 220, shown in figure 2, or in the display module 230, shown in figure 3, has a function to display on the surface of a display module of the data items generated control module.

In the process of providing image data on the surface of the display module 210, on the surface of the display module 220 or on the surface of the display module 230, the control module 100 at high speed generates the data elements that comprise the set of data elements, and a display module 210, a display module 220 or the on-screen fashion is ü 230 at high speed displays these data elements respectively on the surface of the display module 210, on the surface of the display module 220 or on the surface of the display module 230 shown conditional respectively Fig, Fig or Fig. While the data elements generated by the control module 100, meet the following criteria.

Each data element of the one-to-one corresponds to the element management table. Data elements that are one-to-one corresponding to the members of the management table, the components of an arbitrary row of the control table form the data line, one-to-one corresponding to this row of the management table. The order in which the control unit 210, a display module 220 or the display module 230 generates the data elements constituting the data line, one-to-one corresponding to an arbitrary row of the control table that corresponds to the order in which the elements of the management table, one-to-one corresponding to these data elements are located in this row of the management table. The order in which the control unit 100 generates a data line comprising multiple rows of data, and the order in which the display module 210, a display module 220 or the display module 230 displays the data rows on the surface visualization, respectively, of the display module 210, a display module 220 or the display module 230 that corresponds to Tvout order which row of the management table, one-to-one corresponding to these rows of data are in the control table. The data elements that make up an arbitrary string of data, a display module 210, a display module 220 or the display module 230 begins to show on the surface visualization, respectively, of the display module 210, a display module 220 or the display module 230 at the same time.

The first example of aligning the image data to be submitted on the surface point of the mosaic screen, and surface areas of visualization that make up the surface of this point from the mosaic screen, according to the first variant embodiment of the invention.

In this example, the number of rows of "d" and the number of columns "f" two-dimensional array of logical pixels "P" of a color image stored in the main memory device 140, shown in figure 4, correspond with the number of rows of plots surface rendering surface rendering of the indicator device 410, presented on Fig.9, and the number of surface patches visualization in the rows area of the surface rendering surface rendering of the indicator device 410, respectively, as

d=2k

and

f=2t+1,

where

d - the number of rows of the two-dimensional array of logical pixels "P" color the private image;

f - the number of columns of the two-dimensional array of logical pixels "P" color image;

k is the number of rows of plots surface rendering surface rendering of the indicator device 410;

t - the number of surface patches visualization in the rows area of the surface rendering surface rendering of the indicator device 410.

The number of rows of "d" and the number of columns "f" two-dimensional array of logical pixels "P" of the color image, respectively, 960 and 257. And the total number of logical pixels "P" color image comprising an array of logical pixels "P" of the color image is 246720.

The management table stored in the main memory device 140, describes the decomposition of the set of logical pixels of the color image and many surface areas of visualization, respectively, on many fields and on many areas surface areas of visualization, in which each data region includes four logical pixel "P" of the color image, and each region of the surface sections visualization includes one surface visualization. However, some logical pixel "P" of the color image are not included in any of the data areas. This management table is composed out of the four fields in the table control. Each field of this control table includes 480 lines of the table control. The number of elements of control tables that make up the field of the management table, as well 61440, and the number of elements of a management table comprising four fields in the table control, as well 245760.

As an example of such a partitioning, described the management table, it is enough to consider the alignment shown in Fig the parts of the surface visualization, formed by the section "R" surface rendering of the first group index "1,1", and shown in Fig data region formed by the logical pixel "P" of the color image index "1,1", the logical pixel "P" of the color image index "1,2", the logical pixel "P" of the color image index "2,1" and logical pixel "P" of the color image index "2,2". The element management table, which contains the address of the site "R" surface rendering of the first group index "1,1" and the logical address of the pixel "P" of the color image index "1,1", is included in the first field of the management table. This element managing table describes the alignment area "R" surface rendering of the first group index "1,1" and the logical pixel "P" of the color image index "1,1 is. Element management table, which contains the address of the site "R" surface rendering of the first group index "1,1" and the logical address of the pixel "P" of the color image index "1,2", is part of the second field of the management table. This element managing table describes the alignment area "R" surface rendering of the first group index "1,1" and the logical pixel "P" of the color image index "1,2". Element management table, which contains the address of the site "R" surface rendering of the first group index "1,1" and the logical address of the pixel "P" of the color image index "2,1", included in the third field of the management table. This element managing table describes the alignment area "R" surface rendering of the first group index "1,1" and the logical pixel "P" of the color image index "2,1". And element management table, which contains the address of the site "R" surface rendering of the first group index "1,1" and the logical address of the pixel "P" of the color image index "2,2", included in the fourth field of the management table. This element managing table describes the alignment area "R" surface rendering of the first group index "1,1" and the logical pixel "P" CEE the nogo image index "2,2".

In this example, the management table also describes the alignment shown in Fig the parts of the surface rendering formed section "G" of the surface rendering of the second group index "1,2", and shown in Fig data region formed by the logical pixel "P" of the color image index "1,3", the logical pixel "P" of the color image index "1,4", the logical pixel "P" of the color image index "2,3" and logical pixel "P" of the color image index "2,4".

In this example, the management table also describes the alignment shown in Fig the parts of the surface visualization, educated plot "In the" surface rendering of the third group index "1,3", and shown in Fig data region formed by the logical pixel "P" of the color image index "to 1.5", the logical pixel "P" of the color image index "1,6", the logical pixel "P" of the color image index "2.5" and a logical pixel "P" of the color image index "to 2.6".

In this example, the management table also describes the alignment shown in Fig the parts of the surface visualization, educated plot "In the" surface rendering tre is La group index "2,1", and shown in Fig data region formed by the logical pixel "P" of the color image index "3,2", the logical pixel "P" of the color image index "3,3", the logical pixel "P" of the color image index 4.2 and logical pixel "P" of the color image index "to 4.3".

In this example, the management table also describes the alignment shown in Fig the parts of the surface visualization, formed by the section "R" surface rendering of the first group index "2,2", and shown in Fig data region formed by the logical pixel "P" of the color image index "3,4", the logical pixel "P" of the color image index "3,5", the logical pixel "P" of the color image index "4,4" and logical pixel "P" of the color image index "to 4.5".

In this example, the management table also describes the alignment shown in Fig the parts of the surface rendering formed section "G" of the surface rendering of the second group index "2,3", and shown in Fig data region formed by the logical pixel "P" of the color image index "3,6", the logical pixel "P" of the color image index "3,7", the logical pixel "P" of color from the expression indexes "4,6" and logical pixel "P" of the color image index "to 4.7".

Etc.

Similarly, each of the parts of the surface rendering surface rendering of the indicator device 410 that includes one portion "R" of the surface rendering of the first group, one part "G" of the surface rendering of the second group, or one part In" surface rendering of the third group, delivered in one-to-one correspondence to the data area in the plane of the image data stored in the main memory device 140, which includes four logical pixel "P" of the color image. Each of the four logical pixels "P" color image included in the arbitrary data region is set in accordance with the section "R" surface rendering of the first group, area "G" surface rendering of the second group or area "B" surface rendering of the third group, which is part of the field surface areas of visualization, one-to-one corresponding to the data region.

The first example of the formation of the data elements to be displayed on the surface point of the mosaic screen, according to the first variant embodiment of the invention.

The information in this example, based on information set forth in the first example, the alignment data shown is I, subject to the view point on the surface of the mosaic screen, and surface areas of visualization that make up the surface of this point from the mosaic screen, according to the first variant embodiment of the invention. As a first example of the formation of data elements of the control module 100, shown in figure 1, according to the first variant embodiment of the invention, it is enough to consider the formation of multiple data items, one-to-one corresponding elements of control tables stored in the main memory device 140, shown in figure 4. These elements of control tables are located in one row of the control table. Mentioned line of the table control is the first line of the first field of the management table. The number of fields this management table is equal to four.

The first element in the row of the management table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,1" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1.1" and a sign of compliance with the section "R" surface VI is whlesale the first group.

The next element in the row of the management table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,2" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,3" and a sign of conformity to section "G" of the surface rendering of the second group.

The next element in the row of the management table is the element that contains the address shown on Fig location "b" surface rendering of the third group index "1,3" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index of 1.5" and a sign of compliance with the section "B" surface rendering of the third group.

Etc.

The last element in the row of the management table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,128" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,255" and a sign of conformity to section "G" of the surface rendering of the second group.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,1", contains a field attribute of the first group contains the address of the site "R" surface rendering of the first group index "1,1", contains a field attribute of the second group and is the first element in the sequence of the elements of the management table, the main processor 110, shown in figure 4, performs the following operations:

first by adding the address of this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "1,1";

then the result of adding the address of this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "1,1" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface is the visualization of the first group, on equality grounds of compliance with the section "G" of the surface rendering of the second group and the equality sign of compliance with the section "B" surface rendering of the third group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group;

and then the result of adding the logical address of the pixel "P" of the color image index "1,1" and the offset of the first group calculates the address where the mainly operational storage device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "1,1".

After calculation of the address in the main memory device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "1,1",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "1.1" and a sign of compliance with the section "R" surface rendering of the first group,

the main processor 110 reads from the main memory device 140 these data "r" of the first group and privae the AET these data "r" of the first group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "R" surface rendering of the first group index "1,1", contains a field attribute of the second group and is the first element in the sequence of the elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "R" surface rendering of the first group index "1,1";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "R" surface rendering of the first group index "1,1" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 210, shown in figure 1, address parcel "R" surface rendering of the first group index "1,1," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, stood the Commissioner, the following 8 bits of 32-bit words, this data element constituting the upper 8 bits of 32-bit words.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,3", contains a field attribute of the first group contains address parcel "G" surface rendering of the second group index "1,2", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is the logical address of the pixel "P" of the color image index "to 1.3";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then VI reads from the th random access memory device 140 this logical address of pixel "P" of the color image index "1,3" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group and the equality sign of compliance with the section "B" surface rendering of the third group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "G" of the surface rendering of the second group;

and then the result of adding the logical address of the pixel "P" of the color image index "1,3" and the offset of the second group calculates the address where the mainly operational storage device 140 contains data on the "g" of the second group comprise the logical pixel "P" of the color image index "1,3".

After calculation of the address in the main memory device 140 contains data on the "g" of the second group comprise the logical pixel "P" of the color image index "1,3",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "1,3" and a sign of conformity to section "G" of the surface of visa is Itachi second group,

the main processor 110 reads from the main memory device 140 the data "g" of the second group and assigns the data "g" of the second group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "G" surface rendering of the second group index "1,2", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "G" surface rendering of the second group index "1,2";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "G" surface rendering of the second group index "1,2" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 21 address parcel "G" surface rendering of the second group index "1,2", constituting the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,5", contains a field attribute of the first group contains the address of the site "In the" surface rendering of the third group index "1,3", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "to 1.5";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address on to the mu in the main memory device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index of 1.5 and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group and the equality sign of compliance with the section "B" surface rendering of the third group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "B" surface rendering of the third group;

and then the result of adding the logical address of the pixel "P" of the color image index "1.5" and the offset of the third group calculates the address where the mainly operational storage device 140 are the data "b" of the third group included in the logical pixel "P" of the color image index "to 1.5".

After calculation of the address in the main memory unit 140 are the data "b" of the third group included in the logical pixel "P" of the color image index "to 1.5",

but in the process of formation of this data element, mutually one is scientific corresponding to this element of the management table, contains the logical address of the pixel "P" of the color image index of 1.5" and a sign of compliance with the section "B" surface rendering of the third group,

the main processor 110 reads from the main memory device 140 of the data "b" of the third group and assigns the data "b" of the third group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "B" surface rendering of the third group index "1,3", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "B" surface rendering of the third group index "to 1.3";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address Uch is STCA "In" surface rendering of the third group index "1,3" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 210 address parcel "B" surface rendering of the third group index "1,3," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Etc.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,255", contains a field attribute of the first group contains address parcel "G" surface rendering of the second group index "1,128", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "to 1.25";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "1,255", and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group and the equality sign of compliance with the section "B" surface rendering of the third group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "G" of the surface rendering of the second group;

and then the result of adding the logical address of the pixel "P" of the color image index "1,255", and the offset of the second group calculates the address where the mainly operational storage device 140 contains data on the "g" of the second group comprise the logical pixel "P" of the color image index "1,255".

After calculating the address, which is basically random access memory device 140 contains data on the "g" of the second group, included in the logical pixel "P" of the color image index "1,255",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "1,255" and a sign of conformity to section "G" of the surface rendering of the second group,

the main processor 110 reads from the main memory device 140 the data "g" of the second group and assigns the data "g" of the second group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "G" surface rendering of the second group index "1,128", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "G" surface rendering of the second group index "1,128";

then the result of adding the address of this element of the management table and the offset of the eighth group in chislet address, which basically random access memory device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "G" surface rendering of the second group index "1,128", and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 210 address parcel "G" surface rendering of the second group index "1,128", constituting the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

The examples give an idea of how, in the first example of the formation of data elements according to the first variant of the invention, are formed other data items, one-to-one corresponding elements of control table located in the same row of the management table in the other rows of the table control.

To implement the first example of the formation of data elements according to the first variant embodiment of the invention, the frequency generator 305 clock frequency and the division ratio of customizable divider 307 frequency, shown in Fig, are selected so that the frequency of the pulse signal to STROBE the DATA is" output adjustable divider 307 frequency was 14745600 Hz. The frequency generator 310 clock frequency and the division ratio of customizable divider 312 frequency, shown in Fig, are selected so that the frequency of the pulse signal "SYNC" output adjustable divider 312 frequency was 15728640 Hz. These values frequency pulse signal "DATA STROBE" signal "SYNC" provide a view of one frame of the mentioned color image on the surface of the display module 210 with a frequency of 60 Hz.

The first example of display data elements on the surface of the dot mosaic screen according to the first variant embodiment of the invention.

The information in this example, based on information set forth in the first example of the formation of the data elements to be displayed on the surface point of the mosaic screen, according to the first variant embodiment of the invention. As a first display example of data elements of the display module 210, shown in figure 1, according to the first variant of the invention, it is sufficient to consider displaying multiple data items, one-to-one corresponding elements of control tables stored in the main memory device 140, shown in figure 4. These elements of control tables are located in the ne row of the management table. Mentioned line of the table control is the first line of the first field of the management table. The number of fields this management table is equal to four.

The first element in the row of the management table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,1" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,1".

The next element in the row of the management table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,2" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,3".

The next element in the row of the management table is the element that contains the address shown on Fig location "b" surface rendering of the third group index "1,3" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management tab the Itza contains the address shown on Fig logical pixel "P" of the color image index "to 1.5".

Etc.

The last element in the row of the management table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,128" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,255".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "R" surface rendering of the first group index "1,1" and the field attribute of the second group, on the surface of the display module 210, the display module 210 performs the following operations:

first receives from the control module 100, shown in figure 1, and remembers similar to that shown in Fig register-latch 802, having an address parcel "R" surface rendering of the first group index "1,1", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input of the reset shown in Fig;

and then periodically at high speed checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the mn trigger the teaching field attribute on equality grounds string termination of the management table to obtain a positive result of this test.

In the process of display element data, one-to-one corresponding to said element driving table containing address parcel "R" surface rendering of the first group index "1,1", on the surface of the display module 210, the display module 210

first stores the data "r" of the first group contained in the address area "R" surface rendering of the first group index "1,1" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "r" of the first group contained in this register-latch 806, the luminous flux of red color, directed from this site "R" surface rendering of the first group index "1,1".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "G" surface rendering of the second group index "1,2" and the field attribute of the second group, on the surface of the display module 210, the display module 210 performs the following operations:

first receives from the control module 100 and remembers similar to those shown in nafig register-latch 802, having an address parcel "G" surface rendering of the second group index "1,2", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then periodically at high speed checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on the equality of the terminator line management table to obtain a positive result of this test.

In the process of display element data, one-to-one corresponding to said element driving table containing address parcel "G" surface rendering of the second group index "1,2", on the surface of the display module 210, the display module 210

first stores the data "g" of the second group contained in the address section "G" of the surface rendering of the second group index "1,2" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "g" of the second group contained in this register-latch 806, luminous flux green directed from this site "G" surface rendering of the second group index "1,2".

Before the display is the group of element data, one-to-one corresponding to said element driving table containing address parcel "B" surface rendering of the third group index "1,3" and the field attribute of the second group, on the surface of the display module 210, the display module 210 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "B" surface rendering of the third group index "1,3", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then periodically at high speed checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on the equality of the terminator line management table to obtain a positive result of this test.

In the process of display element data, one-to-one corresponding to said element driving table containing address parcel "B" surface rendering of the third group index "1,3", on the surface of the display module 210, the display module 210

first stores the data "b" of the third group contained in with the address of a participant is a "At" surface rendering of the third group index "1,3" register-latch 802, in similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "b" of the third group contained in this register-latch 806, the luminous flux of blue color cast from this site "In the" surface rendering of the third group index "1,3".

Etc.

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "G" surface rendering of the second group index "1,128" and the field attribute of the second group, on the surface of the display module 210, the display module 210 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "G" surface rendering of the second group index "1,128", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on equality grounds complete line of the control table and gets a positive result of this test.

In the process of displaying elementarnykh, one-to-one corresponding to said element driving table containing address parcel "G" surface rendering of the second group index "1,128", on the surface of the display module 210, the display module 210

first stores the data "g" of the second group contained in the address section "G" of the surface rendering of the second group index "1,128" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "g" of the second group contained in this register-latch 806, luminous flux green directed from this site "G" surface rendering of the second group index "1,128".

The display of these data elements included in a single row of data, the display module 210 begins at the same time after receiving a positive test result field value attribute of the second group stored in the D-trigger 309 to the input of the reset on equality grounds complete line of the table control.

The examples give an idea about how the first example of display data elements on the surface of the dot mosaic screen according to the first variant embodiment of the invention displays other data items, one-to-one corre is adequate elements of control table located in the same row of the management table in the other rows of the table control.

The second example of aligning the image data to be submitted on the surface point of the mosaic screen, and surface areas of visualization that make up the surface of this point from the mosaic screen, according to the first variant embodiment of the invention.

In this example, the number of rows of "d" and the number of columns "f" two-dimensional array of logical pixels "P" of a color image stored in the main memory device 140, shown in figure 4, correspond with the number of rows of plots surface rendering surface rendering of the indicator device 410, presented on Fig.9, and the number of surface patches visualization in the rows area of the surface rendering surface rendering of the indicator device 410, respectively, as

d=k/2

and

f=t/2,

where

d - the number of rows of the two-dimensional array of logical pixels "P" color image;

f - the number of columns of the two-dimensional array of logical pixels "P" color image;

k is the number of rows of plots surface rendering surface rendering of the indicator device 410;

t - the number of surface patches visualization in the rows of the surface sections VI is whlesale on the surface visualization of the indicator device 410.

The number of rows of "d" and the number of columns "f" two-dimensional array of logical pixels "P" color image respectively 240 and 64. And the total number of logical pixels "P" color image comprising an array of logical pixels "P" of the color image is equal to 15360.

The management table stored in the main memory device 140, describes the decomposition of the set of logical pixels "P" color image and many surface areas of visualization, respectively, on many fields and on many areas surface areas of visualization, in which each data region includes one logical pixel "P" of the color image, and each region of the surface sections visualization includes four surface visualization. The data region includes one logical pixel "P" of the color image describes the management table, consisting of one field of the management table. In addition, the field of this control table includes the number of rows in the driving table, equals the number of rows of plots surface rendering surface rendering of the indicator device 410, multiplied by the number of surface areas of visualization in any of these lines the surfaces of the visualization. Uh what about the number of rows in the driving table is 61440. The number of elements of control tables that make up the field of the management table is 61440.

As an example of such a partitioning, described the management table, it is enough to consider the alignment shown in Fig data region formed by the logical pixel "P" of the color image index "1,1", and shown in Fig the parts of the surface visualization, formed by the section "R" surface rendering of the first group index "1,1", section "G" of the surface rendering of the second group index "1,2", section "B" surface rendering of the third group index "2,1" and parcel "R" surface rendering of the first group index "2,2". The element management table, which contains the address of the site "R" surface rendering of the first group index "1,1", the logical address of the pixel "P" of the color image index "1,1" and the sign area "R" surface rendering of the first group, describes the alignment area "R" surface rendering of the first group index "1,1" and the logical pixel "P" of the color image index "1,1". Element management table that contains address parcel "G" surface rendering of the second group index "1,2", the logical address of the pixel "P" of the color image with the Indus is xami "1,1" and the sign area "G" surface rendering of the second group, describes the alignment section "G" of the surface rendering of the second group index "1,2" and logical pixel "P" of the color image index "1,1". Element management table, which contains the address of the location "b" surface rendering of the third group index "2,1", the logical address of the pixel "P" of the color image index "1,1" and the sign location "b" surface rendering of the third group describes the alignment section In the" surface rendering of the third group index "2,1" and logical pixel "P" of the color image index "1,1". And element management table, which contains the address of the site "R" surface rendering of the first group index "2,2", the logical address of the pixel "P" of the color image index "1,1" and the sign area "R" surface rendering of the first group, describes the alignment area "R" surface rendering of the first group index "2,2" and logical pixel "P" of the color image index "1,1".

In this example, the management table also describes the alignment shown in Fig data region formed by the logical pixel "P" of the color image index "1,2", and shown in Fig the parts of the surface rendering formed what castcom "In" surface rendering of the third group index "1,3", section "R" surface rendering of the first group index "1,4", section "G" of the surface rendering of the second group index "2,3" and parcel "B" surface rendering of the third group index "2,4".

In this example, the management table also describes the alignment shown in Fig data region formed by the logical pixel "P" of the color image index "1,3", and shown in Fig the parts of the surface rendering formed section "G" of the surface rendering of the second group index "1,5", section "B" surface rendering of the third group index "1,6", section "R" surface rendering of the first group index "2.5" and section "G" of the surface rendering of the second group index "to 2.6".

In this example, the management table also describes the alignment shown in Fig data region formed by the logical pixel "P" of the color image index "2,1", and shown in Fig the parts of the surface visualization, formed by the section "R" surface rendering of the first group index "3,1", section "G" of the surface rendering of the second group index "3,2", section "B" surface rendering of the third group index "4,1" and parcel "R" surface visa the implementation of the first group index "4,2".

In this example, the management table also describes the alignment shown in Fig data region formed by the logical pixel "P" of the color image index "2,2", and shown in Fig the parts of the surface visualization, educated plot "In the" surface rendering of the third group index "3,3", section "R" surface rendering of the first group index "3,4", section "G" of the surface rendering of the second group index "4.3", section "B" surface rendering of the third group index "to 4.4".

In this example, the management table also describes the alignment shown in Fig data region formed by the logical pixel "P" of the color image index "2,3", and shown in Fig the parts of the surface rendering formed section "G" of the surface rendering of the second group index "3,5", section "B" surface rendering of the third group index "3,6", section "R" surface rendering of the first group index "to 4.5" and section "G" of the surface rendering of the second group index "4,6".

Etc.

Similarly, each of the parts of the surface rendering surface rendering of the indicator device 410 includes one participant who to "R" surface rendering of the first group, two sections of "G" surface rendering of the second group and one part "B" surface rendering of the third group, each of the parts of the surface rendering surface rendering of the indicator device 410 includes one plot "In the" surface rendering of the third group, two sections of the "R" surface rendering of the first group and one part "G" of the surface rendering of the second group, and each of the parts of the surface rendering surface rendering of the indicator device 410 that includes one portion "G" of the surface rendering of the second group, two areas "In" surface rendering of the third group and one part "R" surface rendering of the first group, delivered in one-to-one correspondence to the data area in the plane of the image data stored in the main memory device 140 that includes one logical pixel "P" of the color image. When this logical pixel "P" of the color image included in the arbitrary data area that corresponds to each of the four surface areas of the visualization included in the field of surface areas of visualization, one-to-one corresponding to the data region.

The second example of formation of data elements, Podles is related to the display point on the surface of the mosaic screen, according to the first variant embodiment of the invention.

The information in this example, based on the information outlined above in the second example, aligning the image data to be submitted on the surface point of the mosaic screen, and surface areas of visualization that make up the surface of this point from the mosaic screen, according to the first variant embodiment of the invention. As a second example of formation of elements in the data managing module 100, shown in figure 1, according to the first variant embodiment of the invention is sufficient to consider the formation of multiple data items, one-to-one corresponding elements of control tables stored in the main memory device 140, shown in figure 4. These elements of control tables are located in the row of the management table includes one entry of the management table. The number of fields this management table is equal to one.

The first element in the mentioned field of the management table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,1" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the it address shown on Fig logical pixel "P" of the color image index "1.1" and a sign of compliance with the section "R" surface rendering of the first group.

The next element in the mentioned field of the management table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,2" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1.1" and a sign of conformity to section "G" of the surface rendering of the second group.

The next element in the mentioned field of the management table is the element that contains the address shown on Fig location "b" surface rendering of the third group index "1,3" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,2" and a sign of compliance with the section "B" surface rendering of the third group.

Etc.

The last element in the mentioned field of the management table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "480,128" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table will gain the address shown on Fig logical pixel "P" of the color image index "240,64" and a sign of compliance with the section "R" surface rendering of the first group.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,1", contains a field attribute of the first group contains the address of the site "R" surface rendering of the first group index "1,1", contains a field attribute of the second group and is the first element in the sequence of the elements of the management table,

the main processor 110, shown in figure 4, performs the following operations:

first by adding the address of this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "1,1";

then the result of adding the address of this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "1,1" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" on top of the spine visualization of the first group, on equality grounds of compliance with the section "G" of the surface rendering of the second group and the equality sign of compliance with the section "B" surface rendering of the third group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group;

and then the result of adding the logical address of the pixel "P" of the color image index "1,1" and the offset of the first group calculates the address where the mainly operational storage device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "1,1".

After calculation of the address in the main memory device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "1,1",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "1.1" and a sign of compliance with the section "R" surface rendering of the first group,

the main processor 110 reads from the main memory device 140 these data "r" of the first group and privae the AET these data "r" of the first group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "R" surface rendering of the first group index "1,1", contains a field attribute of the second group and is the first element in the sequence of the elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "R" surface rendering of the first group index "1,1";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "R" surface rendering of the first group index "1,1" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 210, shown in figure 1, address parcel "R" surface rendering of the first group index "1,1," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, stood the Commissioner, the following 8 bits of 32-bit words, this data element constituting the upper 8 bits of 32-bit words.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,1", contains a field attribute of the first group contains address parcel "G" surface rendering of the second group index "1,2", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated element address management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "1,1";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main operational the aqueous storage device 140, the logical address of the pixel "P" of the color image index "1,1" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group and the equality sign of compliance with the section "B" surface rendering of the third group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "G" of the surface rendering of the second group;

and then the result of adding the logical address of the pixel "P" of the color image index "1,1" and the offset of the second group calculates the address where the mainly operational storage device 140 contains data on the "g" of the second group comprise the logical pixel "P" of the color image index "1,1".

After calculation of the address in the main memory device 140 contains data on the "g" of the second group comprise the logical pixel "P" of the color image index "1,1",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "1.1" and a sign of conformity to section "G" of the surface of visa is Itachi second group,

the main processor 110 reads from the main memory device 140 the data "g" of the second group and assigns the data "g" of the second group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "G" surface rendering of the second group index "1,2", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "G" surface rendering of the second group index "1,2";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "G" surface rendering of the second group index "1,2" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 21 address parcel "G" surface rendering of the second group index "1,2", constituting the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,2", contains a field attribute of the first group contains the address of the site "In the" surface rendering of the third group index "1,3", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations;

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "1,2";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address on to the mu in the main memory device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "1,2" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group and the equality sign of compliance with the section "B" surface rendering of the third group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "B" surface rendering of the third group;

and then the result of adding the logical address of the pixel "P" of the color image index "1,2" and the offset of the third group calculates the address where the mainly operational storage device 140 are the data "b" of the third group, are included in this logical pixel "P" of the color image index "1,2".

After calculation of the address in the main memory unit 140 are the data "b" of the third group included in the logical pixel "P" of the color image index "1,2",

but in the process of formation of this data element, the mutual is definitely relevant to this element of the management table, contains the logical address of the pixel "P" of the color image index "1,2" and a sign of compliance with the section "B" surface rendering of the third group,

the main processor 110 reads from the main memory device 140 of the data "b" of the third group and assigns the data "b" of the third group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "B" surface rendering of the third group index "1,3", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "B" surface rendering of the third group index "to 1.3";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address Uch is STCA "In" surface rendering of the third group index "1,3" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 210 address parcel "B" surface rendering of the third group index "1,3," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Etc.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "240,64", contains a field attribute of the first group contains the address of the site "R" surface rendering of the first group index "480,128", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "20,64";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the primary storage device 140, the logical address of the pixel "P" of the color image index "240,64" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group and the equality sign of compliance with the section "B" surface rendering of the third group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group;

and then the result of adding the logical address of the pixel "P" of the color image index "240,64" and the offset of the first group calculates the address where the mainly operational storage device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "240,64".

After calculation of the address in snowmobileing storage device 140 contains data on the "r" of the first group, included in the logical pixel "P" of the color image index "240,64",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "240,64" and a sign of compliance with the section "R" surface rendering of the first group,

the main processor 110 reads from the main memory device 140 these data "r" of the first group and assigns the data "r" of the first group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "R" surface rendering of the first group index "480,128", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "R" surface rendering of the first group index "480,128";

then the result of adding the address of this element of the management table and offset eighth groups which calculates the address which basically random access memory device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "R" surface rendering of the first group index "480,128" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 210 address parcel "R" surface rendering of the first group index "480,128," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

The examples give an idea of how the second example of formation of data elements according to the first variant embodiment of the invention are formed other data items, one-to-one corresponding elements of control table located in the same field of the management table.

For the implementation of the second example of formation of data elements according to the first variant embodiment of the invention, the frequency generator 305 clock frequency and the division ratio of customizable divider 307 frequency, shown in Fig, are selected so that the frequency of the pulse signal STROBE DATA output retargeted share what I 307 frequency was 3686400 Hz. The frequency generator 310 clock frequency and the division ratio of customizable divider 312 frequency, shown in Fig, are selected so that the frequency of the pulse signal "SYNC" output adjustable divider 312 frequency was 3932160 Hz. These values frequency pulse signal "DATA STROBE" signal "SYNC" provide a view of one frame of the mentioned color image on the surface of the display module 210 with a frequency of 60 Hz.

The second example of display data elements on the surface of the dot mosaic screen according to the first variant embodiment of the invention.

The information in this example, based on information contained in the second example, the formation of data elements to be displayed on the surface point of the mosaic screen, according to the first variant embodiment of the invention. As a second display example of data elements of the display module 210, shown in figure 1, according to the first variant embodiment of the invention it is sufficient to consider displaying multiple data items, one-to-one corresponding elements of control tables stored in the main memory device 140, shown in figure 4. These elements of control tables are located in the line management table, includes one element of the management table. The number of fields this management table is equal to one.

The first element in the mentioned field of the management table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,1" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,1".

The next element in the mentioned field of the management table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,2" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,1".

The next element in the mentioned field of the management table is the element that contains the address shown on Fig location "b" surface rendering of the third group index "1,3" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical PI the flow "R" color image index "1,2".

Etc.

The last element in the mentioned field of the management table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "480,128" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "240,64".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "R" surface rendering of the first group index "1,1" and the field attribute of the second group, on the surface of the display module 210, the display module 210 performs the following operations:

first receives from the control module 100, shown in figure 1, and remembers similar to that shown in Fig register-latch 802, having an address parcel "R" surface rendering of the first group index "1,1", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input of the reset shown in Fig;

and then checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on ravenstonedale finish line of the control table and gets a positive result of this test.

In the process of display element data, one-to-one corresponding to said element driving table containing address parcel "R" surface rendering of the first group index "1,1", on the surface of the display module 210, the display module 210

first stores the data "r" of the first group contained in the address area "R" surface rendering of the first group index "1,1" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "r" of the first group contained in this register-latch 806, the luminous flux of red color, directed from this site "R" surface rendering of the first group index "1,1".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "G" surface rendering of the second group index "1,2" and the field attribute of the second group, on the surface of the display module 210, the display module 210 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "G" surface rendering of the second group index "1,2", this ale is NT data and remembers the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on equality grounds complete line of the control table and gets a positive result of this test.

In the process of display element data, one-to-one corresponding to said element driving table containing address parcel "G" surface rendering of the second group index "1,2", on the surface of the display module 210, the display module 210

first stores the data "g" of the second group contained in the address section "G" of the surface rendering of the second group index "1,2" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "g" of the second group contained in this register-latch 806, luminous flux green directed from this site "G" surface rendering of the second group index "1,2".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "B" on top of the spine visualization of the third group index "1,3" and the field attribute of the second group, on the surface of the display module 210, the display module 210 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "B" surface rendering of the third group index "1,3", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on equality grounds complete line of the control table and gets a positive result of this test.

In the process of display element data, one-to-one corresponding to said element driving table containing address parcel "B" surface rendering of the third group index "1,3", on the surface of the display module 210, the display module 210

first stores the data "b" of the third group contained in address location "b" surface rendering of the third group index "1,3" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "b" of the third group is, contained in this register-latch 806, the luminous flux of blue color cast from this site "In the" surface rendering of the third group index "1,3".

Etc.

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "R" surface rendering of the first group index "480,128" and the field attribute of the second group, on the surface of the display module 210, the display module 210 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "R" surface rendering of the first group index "480,128", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on equality grounds complete line of the control table and gets a positive result of this test.

In the process of display element data, one-to-one corresponding to arbitrary item management table containing address parcel "R" surface rendering the first is the group index "480,128", on the surface of the display module 210, the display module 210

first stores the data "r" of the first group contained in the address area "R" surface rendering of the first group index "480,128" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "r" of the first group contained in this register-latch 806, the luminous flux of red color, directed from this site "R" surface rendering of the first group index "480,128".

Mapping each data item display module 210 begins immediately after receiving a positive test result field value attribute of the second group stored in the D-trigger 309 to the input of the reset on equality grounds complete line of the table control.

The examples give an idea of how the second example of display data elements on the surface of the dot mosaic screen according to the first variant embodiment of the invention displays other data items, one-to-one corresponding elements of control table located in the same field of the management table.

The third example of aligning the image data to be submitted on the surface point mo is ajnogo screen, and surface areas of visualization that make up the surface of this point from the mosaic screen, according to the first variant embodiment of the invention.

In this example, the number of rows of "d" and the number of columns "f" two-dimensional array of logical pixels "P" of a color image stored in the main memory device 140, shown in figure 4, correspond with the number of rows of plots surface rendering surface rendering of the indicator device 410, presented on Fig.9, and the number of surface patches visualization in the rows area of the surface rendering surface rendering of the indicator device 410, respectively, as

d=k

and

f=t,

where

d - the number of rows of the two-dimensional array of logical pixels "P" color image;

f - the number of columns of the two-dimensional array of logical pixels "P" color image;

k is the number of rows of plots surface rendering surface rendering of the indicator device 410;

t - the number of surface patches visualization in the rows area of the surface rendering surface rendering of the indicator device 410.

The number of rows of "d" and the number of columns "f" two-dimensional array of logical pixels "P" of the color image, respectively 480 and 128. While the total number of logical is their pixel "P" of the color image, the components of the logical array of pixels "P" of the color image is 61440.

The management table stored in the main memory device 140, describes the decomposition of the set of logical pixels "P" color image and many surface areas of visualization, respectively, on many fields and on many areas surface areas of visualization, in which each data region includes four logical pixel "P" of the color image, and each region of the surface sections visualization includes four surface visualization. This management table consists of four fields in the table control. In addition, each field of this control table includes only one row of the control table. The number of elements of a management table comprising one field of the management table, as well 61440, and the number of elements of a management table comprising four fields in the table control, as well 245760.

As an example of such a partitioning, described the management table, it is enough to consider the alignment shown in Fig data region formed by the logical pixel "P" of the color image index "1,1", the logical pixel "P" of the color image index "1,2", logical paragraph shall xelem "R" color image index "2,1" and logical pixel "P" of the color image index "2,2", and shown in Fig the parts of the surface visualization, formed by the section "R" surface rendering of the first group index "1,1", section "G" of the surface rendering of the second group index "1,2", section "B" surface rendering of the third group index "2,1" and parcel "R" surface rendering of the first group index "2,2". The element management table, which contains the address of the site "R" surface rendering of the first group index "1,1", the logical address of the pixel "P" of the color image index "1,1" and the sign area "R" surface rendering of the first group, is included in the first field of the management table. This element managing table describes the alignment area "R" surface rendering of the first group index "1,1" and the logical pixel "P" of the color image index "1,1". Element management table, which contains the address of the site "R" surface rendering of the first group index "1,1", the logical address of the pixel "P" of the color image index "1,2" and the sign area "R" surface rendering of the first group, is part of the second field of the management table. This element managing table describes the alignment area "R" surface rendering of the first group with the index of the mi "1,1" and the logical pixel "P" of the color image index "1,2". Element management table, which contains the address of the site "R" surface rendering of the first group index "1,1", the logical address of the pixel "P" of the color image index "2,1" and sign section "R" surface rendering of the first group, is included in the third field of the management table. This element managing table describes the alignment area "R" surface rendering of the first group index "1,1" and the logical pixel "P" of the color image index "2,1". Element management table, which contains the address of the site "R" surface rendering of the first group index "1,1", the logical address of the pixel "P" of the color image index "2,2" and sign section "R" surface rendering of the first group, is included in the fourth field of the management table. This element managing table describes the alignment area "R" surface rendering of the first group index "1,1" and the logical pixel "P" of the color image index "2,2". Element management table that contains address parcel "G" surface rendering of the second group index "1,2", the logical address of the pixel "P" of the color image index "1,1" and the sign area "G" surface rendering of the second group, is included in the first field driving the y table. This element managing table describes the alignment section "G" of the surface rendering of the second group index "1,2" and logical pixel "P" of the color image index "1,1". Element management table that contains address parcel "G" surface rendering of the second group index "1,2", the logical address of the pixel "P" of the color image index "1,2" and sign section "G" of the surface rendering of the second group, is part of the second field of the management table. This element managing table describes the alignment section "G" of the surface rendering of the second group index "1,2" and logical pixel "P" of the color image index "1,2". Element management table that contains address parcel "G" surface rendering of the second group index "1,2", the logical address of the pixel "P" of the color image index "2,1" and sign section "G" of the surface rendering of the second group, is included in the third field of the management table. This element managing table describes the alignment section "G" of the surface rendering of the second group index "1,2" and logical pixel "P" of the color image index "2,1". Element management table that contains address parcel "G" surface rendering the Torah group index "1,2", the logical address of the pixel "P" of the color image index "2,2" and sign section "G" of the surface rendering of the second group, is included in the fourth field of the management table. This element managing table describes the alignment section "G" of the surface rendering of the second group index "1,2" and logical pixel "P" of the color image index "2,2". Element management table, which contains the address of the location "b" surface rendering of the third group index "2,1", the logical address of the pixel "P" of the color image index "1,1" and the sign location "b" surface rendering of the third group, is included in the first field of the management table. This element managing table describes the alignment section In the" surface rendering of the third group index "2,1" and logical pixel "P" of the color image index "1,1". Element management table, which contains the address of the location "b" surface rendering of the third group index "2,1", the logical address of the pixel "P" of the color image index "1,2" and the sign location "b" surface rendering of the third group, is part of the second field of the management table. This element managing table describes the alignment section In the surface provide the purpose of the third group index "2,1" and logical pixel "P" of the color image index "1,2". Element management table, which contains the address of the location "b" surface rendering of the third group index "2,1", the logical address of the pixel "P" of the color image index "2,1" and sign section "B" surface rendering of the third group, is included in the third field of the management table. This element managing table describes the alignment section In the" surface rendering of the third group index "2,1" and logical pixel "P" of the color image index "2,1". Element management table, which contains the address of the location "b" surface rendering of the third group index "2,1", the logical address of the pixel "P" of the color image index "2,2" and sign section "B" surface rendering of the third group, is included in the fourth field of the management table. This element managing table describes the alignment section In the" surface rendering of the third group index "2,1" and logical pixel "P" of the color image index "2,2". Element management table, which contains the address of the site "R" surface rendering of the first group index "2,2", the logical address of the pixel "P" of the color image index "1,1" and the sign area "R" surface rendering of the first group, is included in the first field of the sending of the table. This element managing table describes the alignment area "R" surface rendering of the first group index "2,2" and logical pixel "P" of the color image index "1,1". Element management table, which contains the address of the site "R" surface rendering of the first group index "2,2", the logical address of the pixel "P" of the color image index "1,2" and the sign area "R" surface rendering of the first group, is part of the second field of the management table. This element managing table describes the alignment area "R" surface rendering of the first group index "2,2" and logical pixel "P" of the color image index "1,2". Element management table, which contains the address of the site "R" surface rendering of the first group index "2,2", the logical address of the pixel "P" of the color image index "2,1" and sign section "R" surface rendering of the first group, is included in the third field of the management table. This element managing table describes the alignment area "R" surface rendering of the first group index "2,2" and logical pixel "P" of the color image index "2,1". And element management table, which contains the address of the site "R" surface imaging the first group index "2,2", the logical address of the pixel "P" of the color image index "2,2" and sign section "R" surface rendering of the first group, is included in the fourth field of the management table. This element managing table describes the alignment area "R" surface rendering of the first group index "2,2" and logical pixel "P" of the color image index "2,2".

In this example, the management table also describes the alignment shown in Fig data region formed by the logical pixel "P" of the color image index "1,3", the logical pixel "P" of the color image index "1,4", the logical pixel "P" of the color image index "2,3" and logical pixel "P" of the color image index "2.4GHz", and shown in Fig the parts of the surface visualization, educated plot "In the" surface rendering of the third group index "1,3", section "R" surface rendering first group index "1,4", section "G" of the surface rendering of the second group index "2,3" and parcel "B" surface rendering of the third group index "2,4".

In this example, the management table also describes the alignment shown in Fig data region formed logical pixels is LEM "R" color image index "1,5", a logical pixel "P" of the color image index "1,6", the logical pixel "P" of the color image index "2.5" and a logical pixel "P" of the color image index "2,6", and shown in Fig the parts of the surface rendering formed section "G" of the surface rendering of the second group index "1,5", section "B" surface rendering of the third group index "1,6", section "R" surface rendering of the first group index "2.5" and section "G" of the surface rendering of the second group with indexes "to 2.6".

In this example, the management table also describes the alignment shown in Fig data region formed by the logical pixel "P" of the color image index "3,1", the logical pixel "P" of the color image index "3,2", the logical pixel "P" of the color image index "4,1" and logical pixel "P" of the color image index "4,2", and shown in Fig the parts of the surface visualization, formed by the section "R" surface rendering of the first group index "3,1", section "G" of the surface of the second imaging group index "3,2", section "B" surface rendering of the third group index "4,1" and parcel "R" surface rendering of the first group index "4,2 is.

In this example, the management table also describes the alignment shown in Fig data region formed by the logical pixel "P" of the color image index "3,3", the logical pixel "P" of the color image index "3,4", the logical pixel "P" of the color image index "4.3" and a logical pixel "P" of the color image index "4,4", and shown in Fig the parts of the surface visualization, educated plot "In the" surface rendering of the third group index "3,3", section "R" surface rendering first group index "3,4", section "G" of the surface rendering of the second group index "4.3", section "B" surface rendering of the third group index "to 4.4".

In this example, the management table also describes the alignment shown in Fig data region formed by the logical pixel "P" of the color image index "3,5", the logical pixel "P" of the color image index "3,6", the logical pixel "P" of the color image index "to 4.5" and a logical pixel "P" of the color image index "4,6", and shown in Fig the parts of the surface rendering formed section "G" of the surface rendering of the second group index "3,5", Uch is tough "In" the surface visualization of the third group index "3,6", section "R" surface rendering of the first group index "to 4.5" and section "G" of the surface rendering of the second group index "4,6".

Etc.

Similarly, each of the parts of the surface rendering surface rendering of the indicator device 410 that includes one portion "R" of the surface rendering of the first group, two areas "G" surface rendering of the second group and one part "B" surface rendering of the third group, each of the parts of the surface rendering surface rendering of the indicator device 410 includes one plot "In the" surface rendering of the third group, two sections of the "R" surface rendering of the first group and one part "G" of the surface rendering of the second group, and each area surface area of the imaging surface visualization of the indicator device 410 that includes one portion "G" of the surface rendering of the second group, two areas "In" surface rendering of the third group and one part "R" surface rendering of the first group, delivered in one-to-one correspondence to the data area in the plane of the image data stored in the main memory device 140, which includes four logical pixel "P" of the color image for each logical pixel "P" of the color image, included in the arbitrary data area that corresponds to each of the four surface areas of the visualization included in the field of surface areas of visualization, one-to-one corresponding to the data region.

The third example of the formation of the data elements to be displayed on the surface point of the mosaic screen, according to the first variant embodiment of the invention.

The information in this example, based on the information outlined above in the third example, aligning the image data to be submitted on the surface point of the mosaic screen, and surface areas of visualization that make up the surface of this point from the mosaic screen, according to the first variant embodiment of the invention. As a third example of the formation of data elements of the control module 100, shown in figure 1, according to the first variant embodiment of the invention is sufficient to consider the formation of multiple data items, one-to-one corresponding elements of control tables stored in the main memory device 140, shown in figure 4. These elements of control tables are located in one row of the control table. This string is the driving table is the only row the th fourth field of the management table, and the number of fields this management table is equal to four.

The first element in the above line items, the driving table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,1" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "2,2" and a sign of compliance with the section "R" surface rendering of the first group.

The next item in the line items of the management table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,2" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "2,2" and a sign of conformity to section "G" of the surface rendering of the second group.

The next item in the line items of the management table is the element that contains the address shown on Fig location "b" surface rendering of the third group index "1,3" and the value field of the attribute, which is not the two which is a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "to 2.4" and a sign of compliance with the section "B" surface rendering of the third group.

Etc.

The last element in the above line items, the driving table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "480,128" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "480,128" and a sign of compliance with the section "R" surface rendering of the first group.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "2,2", contains a field attribute of the first group contains the address of the site "R" surface rendering of the first group index "1,1", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110, shown in figure 4, performs the following operations:

first calculates the address of this element of the management table in rez is ltate adding the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "2,2";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "2,2" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group and the equality sign of compliance with the section "B" surface rendering of the third group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group;

and then the result of adding the logical address of the pixel "P" of the color image with index and "2,2" and the offset of the first group calculates the address which basically random access memory device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "2,2".

After calculation of the address in the main memory device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "2,2",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "2,2" and a sign of compliance with the section "R" surface rendering of the first group,

the main processor 120 reads from the main memory device 140 these data "r" of the first group and assigns the data "r" of the first group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "R" surface rendering of the first group index "1,1", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element operated the soup table and offset of the sixth group calculates the address which basically random access memory device 140 is address parcel "R" surface rendering of the first group index "1,1";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "R" surface rendering of the first group index "1,1" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 210, shown in figure 1, address parcel "R" surface rendering of the first group index "1,1," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "2,2", contains a field attribute of the first group contains address parcel "G" surface rendering of the second group index "1,2", contains a field attribute of the second group and is not the first element of the m sequences of elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "2,2";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "2,2" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group and the equality sign of compliance with the section "B" surface rendering of the third group and receives positive is the result of verification of the value of the field attribute of the first group on equality grounds of compliance with the section "G" of the surface rendering of the second group;

and then the result of adding the logical address of the pixel "P" of the color image index "2,2" and the offset of the second group calculates the address where the mainly operational storage device 140 contains data on the "g" of the second group comprise the logical pixel "P" of the color image index "2,2".

After calculation of the address in the main memory device 140 contains data on the "g" of the second group comprise the logical pixel "P" of the color image index "2,2",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "2,2" and a sign of conformity to section "G" of the surface rendering of the second group,

the main processor 110 reads from the main memory device 140 the data "g" of the second group and assigns the data "g" of the second group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "G" surface rendering of the second group index "1,2", contains a field attribute of the second group and is not the first item in the sequence e the elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "G" surface rendering of the second group index "1,2";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "G" surface rendering of the second group index "1,2" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 210 address parcel "G" surface rendering of the second group index "1,2", constituting the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "2.4GHz", contains a field attribute of the first group contains the address of the location "b" surface rendering of the third group index "1,3", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "2,4";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "2,4" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second g is uppy and equality is the basis of compliance with the section "B" surface rendering of the third group and receives a positive test result this field value attribute of the first group on equality grounds of conformity section "B" surface rendering of the third group;

and then the result of adding the logical address of the pixel "P" of the color image index "2,4" and the offset of the third group calculates the address where the mainly operational storage device 140 are the data "b" of the third group included in the logical pixel "P" of the color image index "2,4".

After calculation of the address in the main memory unit 140 are the data "b" of the third group included in the logical pixel "P" of the color image index "2.4GHz",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "to 2.4" and a sign of compliance with the section "B" surface rendering of the third group,

the main processor 110 reads from the main memory device 140 of the data "b" of the third group and assigns the data "b" of the third group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "B" surface rendering of the third group index "1,3", contains a field attribute stroygruppy and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "B" surface rendering of the third group index "to 1.3";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "B" surface rendering of the third group index "1,3" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 210 address parcel "B" surface rendering of the third group index "1,3," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Etc.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "480,128", contains the field attributes is the first group, contains the address of the site "R" surface rendering of the first group index "480,128", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 120 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "480,128";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "480,128" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering progroup, on equality grounds of compliance with the section "G" of the surface rendering of the second group and the equality sign of compliance with the section "B" surface rendering of the third group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group;

and then the result of adding the logical address of the pixel "P" of the color image index "480,128" and the offset of the first group calculates the address where the mainly operational storage device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "480,128".

After calculation of the address in the main memory device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "480,128",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "480,128" and a sign of compliance with the section "R" surface rendering of the first group,

the main processor 110 reads from the main memory device 140 these data "r" of the first group who assigns these data "r" of the first group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "R" surface rendering of the first group index "480,128", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "R" surface rendering of the first group index "480,128";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "R" surface rendering of the first group index "480,128" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 210 address parcel "R" surface rendering of the first group index "480,128," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, forming with ewusie 8 bits of 32-bit words, this data element constituting the upper 8 bits of 32-bit words.

The examples give an idea of how the third example of the formation of data elements according to the first variant embodiment of the invention are formed other data items, one-to-one corresponding elements of control table located in the same row of the management table in the other rows of the table control.

For the implementation of the third example of the formation of data elements according to the first variant embodiment of the invention, the frequency generator 305 clock frequency and the division ratio of customizable divider 307 frequency, shown in Fig, are selected so that the frequency of the pulse signal STROBE DATA output adjustable divider 307 frequency was 14745600 Hz. The frequency generator 310 clock frequency and the division ratio of customizable divider 312 frequency, shown in Fig, are selected so that the frequency of the pulse signal "SYNC" output adjustable divider 312 frequency was 15728640 Hz. These values frequency pulse signal "DATA STROBE" signal "SYNC" provide a view of one frame of the mentioned color image on the surface of the display module 210 with a frequency of 60 Hz./p>

A third example of display data elements on the surface of the dot mosaic screen according to the first variant embodiment of the invention.

The information in this example, based on information set forth in the third example, the formation of data elements to be displayed on the surface point of the mosaic screen, according to the first variant embodiment of the invention. As a third display example of data elements of the display module 210, shown in figure 1, according to the first variant embodiment of the invention it is sufficient to consider displaying multiple data items, one-to-one corresponding elements of control tables stored in the main memory device 140, shown in figure 4. These elements of control tables are located in one row of the control table. This string is the driving table is the only line in the fourth field of the management table, and the number of fields this management table is equal to four.

The first element in the above line items, the driving table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,1" and the value field of the attribute, which is not a sign of a complete row of the management table. This cell battery (included) the t of the management table contains the address shown on Fig logical pixel "P" of the color image index "2,2".

The next item in the line items of the management table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,2" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "2,2".

The next item in the line items of the management table is the element that contains the address shown on Fig location "b" surface rendering of the third group index "1,3" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "2,4".

Etc.

The last element in the above line items, the driving table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "480,128" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "480,128".

Lane is on the display element data, one-to-one corresponding to said element driving table containing address parcel "R" surface rendering of the first group index "1,1" and the field attribute of the second group, on the surface of the display module 210, the display module 210 performs the following operations:

first receives from the control module 100, shown in figure 1, and remembers similar to that shown in Fig register-latch 802, having an address parcel "R" surface rendering of the first group index "1,1", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input of the reset shown in Fig;

and then periodically at high speed checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on the equality of the terminator line management table to obtain a positive result of this test.

In the process of display element data, one-to-one corresponding to arbitrary item management table containing address parcel "R" surface rendering of the first group index "1,1", on the surface of the display module 210, the display module 210

first stores the data "r" the first group is, contained in the address area "R" surface rendering of the first group index "1,1" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "r" of the first group contained in this register-latch 806, the luminous flux of red color, directed from this site "R" surface rendering of the first group index "1,1".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "G" surface rendering of the second group index "1,2" and the field attribute of the second group, on the surface of the display module 210, the display module 210 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "G" surface rendering of the second group index "1,2", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then periodically at high speed checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on ravens is in the terminator line management table to obtain a positive result of this test.

In the process of display element data, one-to-one corresponding to arbitrary item management table containing address parcel "G" surface rendering of the second group index "1,2", on the surface of the display module 210, the display module 210

first stores the data "g" of the second group contained in the address section "G" of the surface rendering of the second group index "1,2" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "g" of the second group contained in this register-latch 806, luminous flux green directed from this site "G" surface rendering of the second group index "1,2".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "B" surface rendering of the third group index "1,3" and the field attribute of the second group, on the surface of the display module 210, the display module 210 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "B" surface rendering of the third group index "1,3", this is the data item, and remembers the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then periodically at high speed checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on the equality of the terminator line management table to obtain a positive result of this test.

In the process of display element data, one-to-one corresponding to arbitrary item management table containing address parcel "B" surface rendering of the third group index "1,3", on the surface of the display module 210, the display module 210

first stores the data "b" of the third group contained in address location "b" surface rendering of the third group index "1,3" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "b" of the third group contained in this register-latch 806, the luminous flux of blue color cast from this site "In the" surface rendering of the third group index "1,3".

Etc.

Before displaying the data item, one-to-one corresponding said element control the work table, contains the address of the site "R" surface rendering of the first group index "480,128" and the field attribute of the second group, on the surface of the display module 210, the display module 210 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "R" surface rendering of the first group index "480,128", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on equality grounds complete line of the control table and gets a positive result of this test.

In the process of display element data, one-to-one corresponding to arbitrary item management table containing address parcel "R" surface rendering of the first group index "480,128", on the surface of the display module 210, the display module 210

first stores the data "r" of the first group contained in the address area "R" surface rendering of the first group index "480,128" register-latch 802, similar to that shown Phi is .19 register-latch 806, communicates with a register-latch 802,

and then converts the data "r" of the first group contained in this register-latch 806, the luminous flux of red color, directed from this site "R" surface rendering of the first group index "480,128".

The display of these data elements included in a single row of data, the display module 210 begins at the same time after receiving a positive test result field value attribute of the second group stored in the D-trigger 309 to the input of the reset on equality grounds complete line of the table control.

The examples give an idea of how the third example of display data elements on the surface of the dot mosaic screen according to the first variant embodiment of the invention displays other data items, one-to-one corresponding elements of control table located in the same row of the management table in the other rows of the table control.

The first example of aligning the image data to be submitted on the surface of the dot matrix screen, and surface areas of visualization that make up the surface of this dot matrix screen according to the second variant embodiment of the invention.

In this example the number is on lines "d" and the number of columns "f" two-dimensional array of logical pixels "P" of the color image, stored in the main memory device 140, shown in figure 4, correspond with the number of rows and number of columns of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 420, presented on figure 10, respectively

d=2k'

and

f=2t',

where

d - the number of rows of the two-dimensional array of logical pixels "P" color image;

f - the number of columns of the two-dimensional array of logical pixels "P" color image;

k' is the number of rows of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 420;

t' is the number of columns of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 420.

The number of rows of "d" and the number of columns "f" two-dimensional array of logical pixels "P" of the color image, respectively, 960 and 256. And the total number of logical pixels "P" color image comprising an array of logical pixels "P" of the color image is 245760.

The management table stored in the main memory device 140, describes the decomposition of the set of logical pixels "P" color image and many surface areas of visualization, respectively, on many fields and on many the creation of areas of the surface areas of visualization, wherein each data region includes four logical pixel "P" of the color image, and each region of the surface sections visualization includes one surface visualization. This management table consists of four fields in the table control. Each field of the management table includes 480 lines of the table control. The number of elements of control tables that make up the field of the management table, as well 61440, and the number of elements of a management table comprising four fields in the table control, as well 245760.

As an example of such a partitioning, described the management table, it is enough to consider the alignment shown in Fig the parts of the surface visualization, formed by the section "R" surface rendering of the first group index "1,1", and shown in Fig data region formed by the logical pixel "P" of the color image index "1,1", the logical pixel "P" of the color image index "1,2", the logical pixel "P" of the color image index "2,1" and logical pixel "P" of the color image index "2,2". The element management table, which contains the address of the site "R" surface rendering of the first group index "1,1" and the logical address of the pixel "P" of the color image is agenia index "1,1", included in the first field of the management table. This element of the management table aligns the section "R" surface rendering of the first group index "1,1" and the logical pixel "P" of the color image index "1,1". Element management table, which contains the address of the site "R" surface rendering of the first group index "1,1" and the logical address of the pixel "P" of the color image index "1,2", is part of the second field of the management table. This element of the management table aligns the section "R" surface rendering of the first group index "1,1" and the logical pixel "P" of the color image index "1,2". Element management table, which contains the address of the site "R" surface rendering of the first group index "1,1" and the logical address of the pixel "P" of the color image index "2,1", included in the third field of the management table. This element of the management table aligns the section "R" surface rendering of the first group index "1,1" and the logical pixel "P" of the color image index "2,1". And element management table, which contains the address of the site "R" surface rendering of the first group index "1,1" and the logical address of the pixel "P" of the color image index "2,2", included in the left fourth field of the management table. This element of the management table aligns the section "R" surface rendering of the first group index "1,1" and the logical pixel "P" of the color image index "2,2".

In this example, the management table also describes the alignment shown in Fig the parts of the surface rendering formed section "G" of the surface rendering of the second group index "1,2", and shown in Fig data region formed by the logical pixel "P" of the color image index "1,3", the logical pixel "P" of the color image index "1,4", the logical pixel "P" of the color image index "2,3" and logical pixel "P" of the color image index "2,4".

In this example, the management table also describes the alignment shown in Fig the parts of the surface rendering formed section "G" of the surface rendering of the second group index "2,1", and shown in Fig data region formed by the logical pixel "P" of the color image index "3,1", the logical pixel "P" of the color image index "3,2", the logical pixel "P" of the color image index "4,1" and logical pixel "P" of the color image index "4,2".

In this paragraph is the emer management table also describes the alignment shown in Fig the parts of the surface visualization educated plot "In the" surface rendering of the third group index "2,2", and shown in Fig data region formed by the logical pixel "P" of the color image index "3,3", the logical pixel "P" of the color image index "3,4", the logical pixel "P" of the color image index "4.3" and a logical pixel "P" of the color image index "to 4.4".

Etc.

Similarly, each of the parts of the surface rendering surface rendering of the indicator device 420, which includes one portion "R" of the surface rendering of the first group, one part "G" of the surface rendering of the second group, or one part In" surface rendering of the third group, delivered in one-to-one correspondence to the data area in the plane of the image data stored in the main memory device 140, which includes four logical pixel "P" of the color image. Each of the four logical pixels "P" color image included in the arbitrary data region is set in accordance with the section "R" surface rendering of the first group, area "G" surface rendering of the second group or area "B" surface rendering of the third group, which is part of the field plots p is surface rendering, one-to-one corresponding to the data region.

The first example of the formation of the data elements to be displayed on the surface of the dot matrix screen according to the second variant embodiment of the invention.

The information in this example, based on information set forth in the first example, aligning the image data to be submitted on the surface of the dot matrix screen, and surface areas of visualization that make up the surface of this dot matrix screen according to the second variant embodiment of the invention. As a first example of the formation of data elements of the control module 100, shown in figure 2, according to the second variant embodiment of the invention is sufficient to consider the formation of multiple data items, one-to-one corresponding elements of control tables stored in the main memory device 140, shown in figure 4. These elements of control tables are located in one row of the control table. Mentioned line of the table control is the first line of the first field of the management table. The number of fields this management table is equal to four.

The first element in the above line items of the management table is item, stergiadis shown in Fig area "R" surface rendering of the first group index "1,1" and the value field of the attribute which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1.1" and a sign of compliance with the section "R" surface rendering of the first group.

The next item in the line items of the management table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,2" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,3" and a sign of conformity to section "G" of the surface rendering of the second group.

The next item in the line items of the management table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,3" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index of 1.5" and a sign of compliance with the section "R" surface rendering of the first group.

p> Etc.

The last element in the above line items, the driving table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,128" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,255" and a sign of conformity to section "G" of the surface rendering of the second group.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,1", contains a field attribute of the first group contains the address of the site "R" surface rendering of the first group index "1,1", contains a field attribute of the second group and is the first element in the sequence of the elements of the management table, the main processor 110, shown in figure 4, performs the following operations:

first by adding the address of this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "1,1";

then the result is e adding the address of this element of the management table and the offset of the seventh group calculates the address which basically random access memory device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "1,1" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group and the equality sign of compliance with the section "B" surface rendering of the third group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group;

and then the result of adding the logical address of the pixel "P" of the color image index "1,1" and the offset of the first group calculates the address where the mainly operational storage device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "1,1".

After calculation of the address in the main memory device 140 contains data on the "r" of the first group comprise the logical pixel "P" CEE the nogo image index "1,1",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "1.1" and a sign of compliance with the section "R" surface rendering of the first group,

the main processor 110 reads from the main memory device 140 these data "r" of the first group and assigns the data "r" of the first group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "R" surface rendering of the first group index "1,1", contains a field attribute of the second group and is the first element in the sequence of the elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "R" surface rendering of the first group index "1,1";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 razpolojenieto field attribute of the second group;

then reads from the main memory device 140 address parcel "R" surface rendering of the first group index "1,1" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 220, shown in figure 2, address parcel "R" surface rendering of the first group index "1,1," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,3", contains a field attribute of the first group contains address parcel "G" surface rendering of the second group index "1,2", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this item at reviewsa table and offset of the fifth group calculates the address which basically random access memory device 140 is a logical address of pixel "P" of the color image index "to 1.3";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device, a logical address of pixel "P" of the color image index "1,3" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group and the equality sign of compliance with the section "B" surface rendering of the third group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "G" of the surface rendering of the second group;

and then the result of adding the logical address of the pixel "P" of the color image index "1,3" and the offset of the second group calculates the address where the mainly operational storage device 140 contains data on the "g the second group, included in the logical pixel "P" of the color image index "1,3".

After calculation of the address in the main memory device 140 contains data on the "g" of the second group comprise the logical pixel "P" of the color image index "1,3",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "1,3" and a sign of conformity to section "G" of the surface rendering of the second group,

the main processor 110 reads from the main memory device 140 the data "g" of the second group and assigns the data "g" of the second group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "G" surface rendering of the second group index "1,2", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational remember the eating device 140 is address parcel "G" surface rendering of the second group index "1,2";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "G" surface rendering of the second group index "1,2" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 220 address parcel "G" surface rendering of the second group index "1,2", constituting the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,5", contains a field attribute of the first group contains the address of the site "R" surface rendering of the first group index "1,3", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element of the management table is s the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "to 1.5";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index of 1.5 and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group and the equality sign of compliance with the section "B" surface rendering of the third group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group;

and then in addition to this logical address of pixel "P" of a color image and is the index of 1.5 and the offset of the first group calculates the address which basically random access memory device 140 contains data on the "r" of the first group, are included in this logical pixel "P" of the color image index "to 1.5".

After calculation of the address in the main memory device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "to 1.5",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index of 1.5" and a sign of compliance with the section "R" surface rendering of the first group,

the main processor 110 reads from the main memory device 140 these data "r" of the first group and assigns the data "r" of the first group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "R" surface rendering of the first group index "1,3", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element pack is alausa table and offset of the sixth group calculates the address which basically random access memory device 140 is address parcel "R" surface rendering of the first group index "to 1.3";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "R" surface rendering of the first group index "1,3" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 220 address parcel "R" surface rendering of the first group index "1,3," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Etc.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,255", contains a field attribute of the first group contains address parcel "G" surface rendering of the second group index "1,128", contains a field attribute of the second group and is not the first item in the pic is egovernance elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "1,255";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140 this logical address of pixel "P" of the color image index "1,255", and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group and the equality sign of compliance with the section "B" surface rendering of the third group and receives put the local verification result that the value of the field attribute of the first group on equality grounds of compliance with the section "G" of the surface rendering of the second group;

and then the result of adding the logical address of the pixel "P" of the color image index "1,255", and the offset of the second group calculates the address where the mainly operational storage device 140 contains data on the "g" of the second group, are included in this logical pixel "P" of the color image index "1,255".

After calculation of the address in the main memory device 140 contains data on the "g" of the second group comprise the logical pixel "P" of the color image index "1,255",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "1,255" and a sign of conformity to section "G" of the surface rendering of the second group,

the main processor 110 reads from the main memory device 140 the data "g" of the second group and assigns the data "g" of the second group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "G" surface rendering of the second group index "1,128", contains a field attribute of the second group and is not the first item in the sequence is eljnosti elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "G" surface rendering of the second group index "1,128";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "G" surface rendering of the second group index "1,128", and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 220 address parcel "G" surface rendering of the second group index "1,128", constituting the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

The examples give an idea about how the first example of the formation of data elements according to the second variant embodiment of the invention are formed other data items, one-to-one matching the elements of control table located in the same row of the management table in the other rows of the table control.

To implement the first example of the formation of data elements according to the second variant embodiment of the invention, the frequency generator 305 clock frequency and the division ratio of customizable divider 307 frequency, shown in Fig, are selected so that the frequency of the pulse signal STROBE DATA output adjustable divider 307 frequency was 14745600 Hz. The frequency generator 310 clock frequency and the division ratio of customizable divider 312 frequency, shown in Fig, are selected so that the frequency of the pulse signal "SYNC" output adjustable divider 312 frequency was 15728640 Hz. These values frequency pulse signal "DATA STROBE" signal "SYNC" provide a view of one frame of the mentioned color image on the surface of the display module 220 with a frequency of 60 Hz.

The first example of display data elements on the surface of the dot matrix screen according to the second variant embodiment of the invention.

The information in this example, based on information set forth in the first example of the formation of the data elements to be displayed on the surface of the scatter matrix e is wound, according to the second variant embodiment of the invention. As a first example of display data items, the display module 220, shown in figure 2, according to the second variant embodiment of the invention it is sufficient to consider displaying multiple data items, one-to-one corresponding elements of control tables stored in the main memory device 140, shown in figure 4. These elements of control tables are located in one row of the control table. Mentioned line of the table control is the first line of the first field of the management table. The number of fields this management table is equal to four.

The first element in the above line items, the driving table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,1" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,1".

The next item in the line items of the management table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,2" and the floor is the attribute which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,3".

The next item in the line items of the management table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,3" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "to 1.5".

Etc.

The last element in the above line items, the driving table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,128" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,255".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "R" surface rendering of the first group index "1,1" and the Asia-Pacific region is bout the second group, on the surface of the display module 220, the display module 220 performs the following operations:

first receives from the control module 100, shown in figure 1, and remembers similar to that shown in Fig register-latch 802, having an address parcel "R" surface rendering of the first group index "1,1", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input of the reset shown in Fig;

and then periodically at high speed checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on the equality of the terminator line management table to obtain a positive result of this test.

In the process of display element data, one-to-one corresponding to said element driving table containing address parcel "R" surface rendering of the first group index "1,1", on the surface of the display module 220, the display module 220

first stores the data "r" of the first group contained in the address area "R" surface rendering of the first group index "1,1" register-latch 802, similar to that shown Fig register-latch 806, communicates with the registration of the om-latch 802,

and then converts the data "r" of the first group contained in this register-latch 806, the luminous flux of red color, directed from this site "R" surface rendering of the first group index "1,1".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "G" surface rendering of the second group index "1,2" and the field attribute of the second group, on the surface of the display module 220, the display module 220 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "G" surface rendering of the second group index "1,2", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then periodically at high speed checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on the equality of the terminator line management table to obtain a positive result of this test.

In the process of display element data, one-to-one corresponding said element under control of the Commissioner of the table, containing address parcel "G" surface rendering of the second group index "1,2", on the surface of the display module 220, the display module 220

first stores the data "g" of the second group contained in the address section "G" of the surface rendering of the second group index "1,2" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "g" of the second group contained in this register-latch 806, luminous flux green directed from this site "G" surface rendering of the second group index "1,2".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "R" surface rendering of the first group index "1,3" and the field attribute of the second group, on the surface of the display module 220, the display module 220 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "R" surface rendering of the first group index "1,3", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then intermittent is at high speed checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of the reset equal recorded in the trigger value field of the attribute on the equality of the terminator line management table to obtain a positive result of this test.

In the process of display element data, one-to-one corresponding to said element driving table containing address parcel "R" surface rendering of the first group index "1,3", on the surface of the display module 220, the display module 220

first stores the data "r" of the first group contained in the address area "R" surface rendering of the first group index "1,3" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "r" of the first group contained in this register-latch 806, the luminous flux of red color, directed from this site "R" surface rendering of the first group index "1,3".

Etc.

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "G" surface rendering of the second group index "1,128" and the field attribute of the second group, on the surface of the display module 220, the display module 220 performs the following operations:

first, a modification of the t from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "G" surface rendering of the second group index "1,128", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on equality grounds complete line of the control table and gets a positive result of this test.

In the process of display element data, one-to-one corresponding to said element driving table containing address parcel "G" surface rendering of the second group index "1,128", on the surface of the display module 220, the display module 220

first stores the data "g" of the second group contained in the address section "G" of the surface rendering of the second group index "1,128" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "g" of the second group contained in this register-latch 806, luminous flux green directed from this site "G" surface rendering of the second group index "1,128".

The display of these data elements included in the left one row of data, the display module 220 begins at the same time after receiving a positive test result field value attribute of the second group stored in the D-trigger 309 to the input of the reset on equality grounds complete line of the table control.

The examples give an idea about how the first example of display data elements on the surface of the dot matrix screen according to the second variant embodiment of the invention displays other data items, one-to-one corresponding elements of control table located in the same row of the management table in the other rows of the table control.

The second example of aligning the image data to be submitted on the surface of the dot matrix screen, and surface areas of visualization that make up the surface of this dot matrix screen according to the second variant embodiment of the invention.

In this example, the number of rows of "d" and the number of columns "f" two-dimensional array of logical pixels "P" of a color image stored in the memory device 140, shown in figure 4, correspond with the number of rows and number of columns of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 420, presented the of figure 10, accordingly, as

d=k'/2

and

f=t'/2,

where

d - the number of rows of the two-dimensional array of logical pixels "P" color image;

f - the number of columns of the two-dimensional array of logical pixels "P" color image;

k' is the number of rows of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 420;

t' is the number of columns of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 420.

The number of rows of "d" and the number of columns "f" two-dimensional array of logical pixels "P" color image respectively 240 and 64. And the total number of logical pixels "P" color image comprising an array of logical pixels "P" of the color image is equal to 15360.

The management table stored in the main memory device 140, describes the decomposition of the set of logical pixels "P" color image and many surface areas of visualization, respectively, on many fields and on many areas surface areas of visualization, in which each data region includes one logical pixel "P" of the color image, and each region of the surface sections visualization includes four surface visualization. Areas and data includes one logical pixel "P" of the color image describes the management table, consisting of one field of the management table. This field of the management table includes a row of the management table, the number of which is equal to the number of rows of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 420, multiplied by the number of columns of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 420, and is 61440. The number of elements of control tables that make up the field of the management table is 61440.

As an example of such a partitioning, described the management table, it is enough to consider the alignment shown in Fig data region formed by the logical pixel "P" of the color image index "1,1", and shown in Fig the parts of the surface visualization, formed by the section "R" surface rendering of the first group index "1,1", section "G" of the surface rendering of the second group index "1,2", section "G" of the surface rendering of the second group index "2,1" and parcel "B" surface rendering of the third group index "2,2". The element management table, which contains the address of the site "R" is arnosti visualization of the first group index "1,1" and the logical address of the pixel "P" of the color image index "1,1", aligns the section "R" surface rendering of the first group index "1,1" and the logical pixel "P" of the color image index "1,1". Element management table that contains address parcel "G" surface rendering of the second group index "1,2" and the logical address of the pixel "P" of the color image index "1,1", matches section "G" of the surface rendering of the second group index "1,2" and the logical pixel "P" of the color image index "1,1". Element management table that contains address parcel "G" surface rendering of the second group index "2,1" and the logical address of the pixel "P" of the color image index "1,1", matches section "G" of the surface rendering of the second group index "2,1" and logical pixel "P" of the color image index "1,1". And element management table, which contains the address of the location "b" surface rendering of the third group index "2,2" and the logical address of the pixel "P" of the color image index "1,1" aligns the plot "In" surface rendering of the third group index "2,2" and logical pixel "P" of the color image index "1,1".

In this example, the management table also describes the alignment shows the Oh on pig data region, educated logical pixel "P" of the color image index "1,2", and shown in Fig the parts of the surface visualization, formed by the section "R" surface rendering of the first group index "1,3", section "G" of the surface rendering of the second group index "1,4", section "G" of the surface rendering of the second group index "2,3" and parcel "B" surface rendering of the third group index "2,4".

In this example, the management table also describes the alignment shown in Fig data region formed by the logical pixel "P" of the color image index "2,1", and shown in Fig the parts of the surface visualization, formed by the section "R" surface rendering of the first group index "3,1", section "G" of the surface rendering of the second group index "3,2", section "G" of the surface rendering of the second group index "4,1" and parcel "B" surface rendering of the third group index "4,2".

In this example, the management table also describes the alignment shown in Fig data region formed by the logical pixel "P" of the color image index "2,2", and shown in Fig the parts of the surface visualization, formed a plot of the "R" stand is rnost visualization of the first group index "3,3", section "G" of the surface rendering of the second group index "3,4", section "G" of the surface rendering of the second group index "4.3", section "B" surface rendering of the third group index "to 4.4".

Etc.

Similarly, each of the parts of the surface rendering surface rendering of the indicator device 420, which includes one portion "R" of the surface rendering of the first group, two areas "G" surface rendering of the second group and one part "B" surface rendering of the third group, delivered in one-to-one correspondence to the data area in the plane of the image data stored in the main memory device 140 that includes one logical pixel "P" of the color image. Each of the four sections of surface rendering, which includes one portion "R" of the surface rendering of the first group, two areas "G" surface rendering of the second group and one part "B" surface rendering of the third group included in an arbitrary region of the surface sections visualization that corresponds to the logical pixel "P" of a color image is included in a data region, one-to-one corresponding to this region of the surface sections of the visualization.

Deuteronomy is the fifth example of the formation of data elements, be displayed on the surface of the dot matrix screen according to the second variant embodiment of the invention.

The information in this example, based on information contained in the second example, aligning the image data to be submitted on the surface of the dot matrix screen, and surface areas of visualization that make up the surface of this dot matrix screen according to the second variant embodiment of the invention. As a second example of formation of elements in the data managing module 100, shown in figure 2, according to the second variant embodiment of the invention is sufficient to consider the formation of multiple data items, one-to-one corresponding elements of control tables stored in the main memory device 140, shown in figure 4. These elements of control tables are located in the row of the management table includes one entry of the management table. The number of fields this management table is equal to one.

The first element in the mentioned field of the management table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,1" and the value field of the attribute, which indicates completion of the construction and the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1.1" and a sign of compliance with the section "R" surface rendering of the first group.

The next element in the mentioned field of the management table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,2" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1.1" and a sign of conformity to section "G" of the surface rendering of the second group.

The next element in the mentioned field of the management table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,3" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,2" and a sign of compliance with the section "R" surface rendering of the first group.

Etc.

The last element in the mentioned field of the management table is the element that contains the address shown on Fig location "b" surface rendering of the third group index "480,128" and the value field of the attribute which is a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "240,64" and a sign of compliance with the section "B" surface rendering of the third group.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,1", contains a field attribute of the first group contains the address of the site "R" surface rendering of the first group index "1,1", contains a field attribute of the second group and is the first element in the sequence of the elements of the management table, the main processor 110, shown in figure 4, performs the following operations:

first by adding the address of this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "1,1";

then the result of adding the address of this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "1,1" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group and the equality sign of compliance with the section "B" surface rendering of the third group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group;

and then in addition to this logical address of pixel "P" of the color image index "1,1" and the offset of the first group calculates the address where the mainly operational storage device 140 contains data on the "r" of the first group, are included in this logical pixel "P" of the color image index "1,1".

After calculation of the address in the main memory device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "1,1",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "1.1" and a sign of compliance with the section "R" power the particular visualization of the first group,

the main processor 110 reads from the main memory device 140 these data "r" of the first group and assigns the data "r" of the first group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "R" surface rendering of the first group index "1,1", contains a field attribute of the second group and is the first element in the sequence of the elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "R" surface rendering of the first group index "1,1";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "R" surface rendering of the first group index "1,1" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 220, p is shown in figure 2, address parcel "R" surface rendering of the first group index "1,1," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,1", contains a field attribute of the first group contains address parcel "G" surface rendering of the second group index "1,2", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "1,1";

then, in the result of addition of the calculated addresses this element is the driving table and the offset of the seventh group calculates the address which basically random access memory device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "1,1" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group and the equality sign of compliance with the section "B" surface rendering of the third group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "G" of the surface rendering of the second group;

and then the result of adding the logical address of the pixel "P" of the color image index "1,1" and the offset of the second group calculates the address where the mainly operational storage device 140 contains data on the "g" of the second group comprise the logical pixel "P" of the color image index "1,1".

After calculation of the address in the main memory device 140 contains data on the "g" of the second group comprise the logical pixel "P" CEE the nogo image index "1,1",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "1.1" and a sign of conformity to section "G" of the surface rendering of the second group,

the main processor 110 reads from the main memory device 140 the data "g" of the second group and assigns the data "g" of the second group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "G" surface rendering of the second group index "1,2", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "G" surface rendering of the second group index "1,2";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 location is but the field attribute of the second group;

then reads from the main memory device 140 address parcel "G" surface rendering of the second group index "1,2" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 220 address parcel "G" surface rendering of the second group index "1,2", constituting the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,2", contains a field attribute of the first group contains the address of the site "R" surface rendering of the first group index "1,3", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table, the offset of the fifth group calculates the address which basically random access memory device 140 is a logical address of pixel "P" of the color image index "1,2";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "1,2" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group and the equality sign of compliance with the section "B" surface rendering of the third group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group;

and then the result of adding the logical address of the pixel "P" of the color image index "1,2" and the offset of the first group calculates the address where the mainly operational storage device 140 contains data on the"r" of the first group, included in the logical pixel "P" of the color image index "1,2".

After calculation of the address in the main memory device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "1,2",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "1,2" and a sign of compliance with the section "R" surface rendering of the first group,

the main processor 110 reads from the main memory device 140 these data "r" of the first group and assigns the data "r" of the first group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "R" surface rendering of the first group index "1,3", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational remember the eating device 140 is address parcel "R" surface rendering of the first group index "1,3";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "R" surface rendering of the first group index "1,3" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 220 address parcel "R" surface rendering of the first group index "1,3," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Etc.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "240,64", contains a field attribute of the first group contains the address of the site "In the" surface rendering of the third group index "480,128", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element in reviewsa table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "240,64";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "240,64" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group and the equality sign of compliance with the section "B" surface rendering of the third group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "B" surface rendering of the third group;

and then the result of adding the logical address of the pixel "P" of the color image in which exami "240,64 and offset of the third group calculates the address which basically random access memory device 140 are the data "b" of the third group included in the logical pixel "P" of the color image index "240,64".

After calculation of the address in the main memory unit 140 are the data "b" of the third group included in the logical pixel "P" of the color image index "240,64",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "240,64" and a sign of compliance with the section "B" surface rendering of the third group,

the main processor 110 reads from the main memory device 140 of the data "b" of the third group and assigns the data "b" of the third group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "B" surface rendering of the third group index "480,128", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this e the ment of the driving table and the offset of the sixth group calculates the address which basically random access memory device 140 is address parcel "B" surface rendering of the third group index "480,128";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "B" surface rendering of the third group index "480,128" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 220 address parcel "B" surface rendering of the third group index "480,128," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

The examples give an idea of how the second example of formation of data elements according to the second variant embodiment of the invention are formed other data items, one-to-one corresponding elements of control table located in the same field of the management table.

For the implementation of the second example of formation of data elements according W the second variant of the invention, the frequency generator 305 clock frequency and the division ratio of customizable divider 307 frequency, shown in Fig, are selected so that the frequency of the pulse signal STROBE DATA output adjustable divider 307 frequency was 3686400 Hz. The frequency generator 310 clock frequency and the division ratio of customizable divider 312 frequency, shown in Fig, are selected so that the frequency of the pulse signal "SYNC" output adjustable divider 312 frequency was 3932160 Hz. These values frequency pulse signal "DATA STROBE" signal "SYNC" provide a view of one frame of the mentioned color image on the surface of the display module 220 with a frequency of 60 Hz.

The second example of display data elements on the surface of the dot matrix screen according to the second variant embodiment of the invention.

The information in this example, based on information contained in the second example, the formation of data elements to be displayed on the surface of the dot matrix screen according to the second variant embodiment of the invention. As a second display example of data elements of the display module 220, shown in figure 2, according to the second variant embodiment of the invention it is sufficient to consider displaying multiple data items, one-to-one corresponding the ways of the management table, stored in the main memory device 140, shown in figure 4. These elements of control tables are located in the row of the management table includes one entry of the management table. The number of fields this management table is equal to one.

The first element in the mentioned field of the management table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,1" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,1".

The next element in the mentioned field of the management table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,2" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,1".

The next element in the mentioned field of the management table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,3" and the value is their attribute fields, which is a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,2".

Etc.

The last element in the mentioned field of the management table is the element that contains the address shown on Fig location "b" surface rendering of the third group index "480,128" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "240,64".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "R" surface rendering of the first group index "1,1" and the field attribute of the second group, on the surface of the display module 220, the display module 220 performs the following operations:

first receives from the control module 100, shown in figure 1, and remembers similar to that shown in Fig register-latch 802, having an address parcel "R" surface rendering of the first group index "1,1", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 with reset input, is provided on Fig;

and then checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on equality grounds complete line of the control table and gets a positive result of this test.

In the process of display element data, one-to-one corresponding to arbitrary item management table containing address parcel "R" surface rendering of the first group index "1,1", on the surface of the display module 220, the display module 220

first stores the data "r" of the first group contained in the address area "R" surface rendering of the first group index "1,1" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "r" of the first group contained in this register-latch 806, the luminous flux of red color, directed from this site "R" surface rendering of the first group index "1,1".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "G" surface rendering of the second group index "1,2" and the field attribute of the second group, on the surface is rnost a display module 220, the display module 220 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "G" surface rendering of the second group index "1,2", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on equality grounds complete line of the control table and gets a positive result of this test.

In the process of display element data, one-to-one corresponding to arbitrary item management table containing address parcel "G" surface rendering of the second group index "1,2", on the surface of the display module 220, the display module 220

first stores the data "g" of the second group contained in the address section "G" of the surface rendering of the second group index "1,2" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "g" of the second group contained in this register-latch 806, luminous flux green directed from this phase is "G" surface rendering of the second group index "1,2".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "R" surface rendering of the first group index "1,3" and the field attribute of the second group, on the surface of the display module 220, the display module 220 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "R" surface rendering of the first group index "1,3", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on equality grounds complete line of the control table and gets a positive result of this test.

In the process of display element data, one-to-one corresponding to arbitrary item management table containing address parcel "R" surface rendering of the first group index "1,3", on the surface of the display module 220, the display module 220

first stores the data "r" of the first group contained in with the address of the site is R" surface rendering of the first group index "1,3" register-latch 802, in similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "r" of the first group contained in this register-latch 806, the luminous flux of red color, directed from this site "R" surface rendering of the first group index "1,3".

Etc.

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "B" surface rendering of the third group index "480,128" and the field attribute of the second group, on the surface of the display module 220, the display module 220 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "B" surface rendering of the third group index "480,128", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on equality grounds complete line of the control table and gets a positive result of this test.

In the process of the El display is enta data one-to-one corresponding to arbitrary item management table containing address parcel "B" surface rendering of the third group index "480,128", on the surface of the display module 220, the display module 220

first stores the data "b" of the third group contained in address location "b" surface rendering of the third group index "480,128" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "b" of the third group contained in this register-latch 806, the luminous flux of blue color cast from this site "In the" surface rendering of the third group index "480,128".

Mapping each data item display module 220 begins immediately after receiving a positive test result field value attribute of the second group stored in the D-trigger 309 to the input of the reset on equality grounds complete line of the table control.

The examples give an idea of how the second example of display data elements on the surface of the dot matrix screen according to the second variant embodiment of the invention displays other data items, one-to-one corresponding elements of control t the blitz located in the same field of the management table.

The third example of aligning the image data to be submitted on the surface of the dot matrix screen, and surface areas of visualization that make up the surface of this dot matrix screen according to the second variant embodiment of the invention.

In this example, the number of rows of "d" and the number of columns "f" two-dimensional array of logical pixels "P" of a color image stored in the main memory device 140, shown in figure 4, correspond with the number of rows and number of columns of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 420, presented on figure 10, respectively

d=k'

and

f=t',

where

d - the number of rows of the two-dimensional array of logical pixels "P" color image;

f - the number of columns of the two-dimensional array of logical pixels "P" color image;

k' is the number of rows of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 420;

t' is the number of columns of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 420.

The number of rows of "d" and the number of columns "f" two-dimensional array of logical pixels in the color image, respectively 480 and 128. And the total number of logical pixels "P" color image comprising an array of logical pixels "P" of the color image is 61440.

The management table stored in the main memory device 140, describes the decomposition of the set of logical pixels "P" color image and many surface areas of visualization, respectively, on many fields and on many areas surface areas of visualization, in which each data region includes one logical pixel "P" of the color image, and each region of the surface sections visualization includes one surface visualization. The data region includes one logical pixel "P" of the color image describes the management table, consisting of one field of the management table. This field of the management table includes only one row of the control table. The number of elements of control tables that make up this field elements, is 61440.

As an example of such a partitioning, described the management table, it is enough to consider the alignment shown in Fig data region formed by the logical pixel "P" of the color image index "1,1", and shown in Fig the parts of the surface is visualization, educated plot "R" surface rendering of the first group index "1,1", as also shown in Fig data region formed by the logical pixel "P" of the color image index "1,2", and shown in Fig the parts of the surface rendering formed section "G" of the surface rendering of the second group index "1,2", as also shown in Fig data region formed by the logical pixel "P" of the color image index "2,1", and shown in Fig the parts of the surface rendering formed section "G" of the surface of the second imaging group index "2,1", as also shown in Fig data region formed by the logical pixel "P" of the color image index "2,2", and shown in Fig the parts of the surface visualization, educated plot "In the" surface rendering of the third group index "2,2". The element management table, which contains the address of the site "R" surface rendering of the first group index "1,1" and the logical address of the pixel "P" of the color image index "1,1", aligns the section "R" surface rendering of the first group index "1,1" and the logical pixel "P" of the color image index "1,1". Element management table, which contains the address of the site is G" surface rendering of the second group index "1,2" and the logical address of the pixel "P" of the color image index "1,2", aligns the section "G" of the surface rendering of the second group index "1,2" and the logical pixel "P" of the color image index "1,2". Element management table that contains address parcel "G" surface rendering of the second group index "2,1" and the logical address of the pixel "P" of the color image index "2,1", matches section "G" of the surface rendering of the second group index "2,1" and logical pixel "P" of the color image index "2,1". And element management table, which contains the address of the location "b" surface rendering of the third group index "2,2" and the logical address of the pixel "P" of the color image index "2,2", aligns the plot "In" surface rendering of the third group index "2,2" and logical pixel "P" of the color image index "2,2".

Etc.

Similarly, each of the parts of the surface rendering surface rendering of the indicator device 420, which includes one portion "R" of the surface rendering of the first group, one part "G" of the surface rendering of the second group, or one part In" surface rendering of the third group, delivered in one-to-one correspondence to the data area in the plane of the image data memorized in the main memory device 140, includes one logical pixel "P" of the color image. When this logical pixel "P" of the color image included in the arbitrary data region is set in accordance with the section "R" surface rendering of the first group, area "G" surface rendering of the second group or area "B" surface rendering of the third group, which is part of the field surface areas of visualization, one-to-one corresponding to the data region.

The third example of the formation of the data elements to be displayed on the surface of the dot matrix screen according to the second variant embodiment of the invention.

The information in this example, based on information set forth in the third example, aligning the image data to be submitted on the surface of the dot matrix screen, and surface areas of visualization that make up the surface of this dot matrix screen according to the second variant embodiment of the invention. As a third example of the formation of data elements of the control module 100, shown in figure 2, according to the second variant embodiment of the invention is sufficient to consider the formation of multiple data items, one-to-one corresponding elements of control tables stored in the main memory device 140, shown in figure 4. These elements of control tables are located in one row of the control table. This string is the driving table is the only line is the only field of the management table.

The first element in the above line items, the driving table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,1" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1.1" and a sign of compliance with the section "R" surface rendering of the first group.

The next item in the line items of the management table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,2" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,2" and a sign of conformity to section "G" of the surface rendering of the second group.

The next item in the line items of the management table is the element, contains the address shown on Fig area "R" surface rendering of the first group index "1,3" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,3" and a sign of compliance with the section "R" surface rendering of the first group.

Etc.

The last element in the above line items, the driving table is the element that contains the address shown on Fig location "b" surface rendering of the third group index "480,128" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "480,128" and a sign of compliance with the section "B" surface rendering of the third group.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,1", contains a field attribute of the first group contains the address of the site "R" surface rendering of the first group index "1,1", contains a field attribute of the second group and the C is the first element in the sequence of the elements of the management table, the main processor 110, shown in figure 4, performs the following operations:

first by adding the address of this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "1,1";

then the result of adding the address of this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "1,1" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group and the equality sign of compliance with the section "B" surface rendering of the third group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group;

and then, in the result of the addition of logical addresses what about the pixel "P" of the color image index "1,1" and the offset of the first group calculates the address which basically random access memory device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "1,1".

After calculation of the address in the main memory device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "1,1",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "1.1" and a sign of compliance with the section "R" surface rendering of the first group,

the main processor 110 reads from the main memory device 140 these data "r" of the first group and assigns the data "r" of the first group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "R" surface rendering of the first group index "1,1", contains a field attribute of the second group and is the first element in the sequence of the elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element opravlyaushi the table and the offset of the sixth group calculates the address which basically random access memory device 140 is address parcel "R" surface rendering of the first group index "1,1";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "R" surface rendering of the first group index "1,1" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 220, shown in figure 2, address parcel "R" surface rendering of the first group index "1,1," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,2", contains a field attribute of the first group contains address parcel "G" surface rendering of the second group index "1,2", contains a field attribute of the second group and is not the first element of the m sequences of elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "1,2";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "1,2" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group and the equality sign of compliance with the section "B" surface rendering of the third group and receives positive is the result of verification of the value of the field attribute of the first group on equality grounds of compliance with the section "G" of the surface rendering of the second group;

and then the result of adding the logical address of the pixel "P" of the color image index "1,2" and the offset of the second group calculates the address where the mainly operational storage device 140 contains data on the "g" of the second group comprise the logical pixel "P" of the color image index "1,2".

After calculation of the address in the main memory device 140 contains data on the "g" of the second group comprise the logical pixel "P" of the color image index "1,2",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "1,2" and a sign of conformity to section "G" of the surface rendering of the second group,

the main processor 110 reads from the main memory device 140 the data "g" of the second group and assigns the data "g" of the second group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "G" surface rendering of the second group index "1,2", contains a field attribute of the second group and is not the first item in the sequence e the elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "G" surface rendering of the second group index "1,2";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "G" surface rendering of the second group index "1,2" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 220 address parcel "G" surface rendering of the second group index "1,2", constituting the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,3", contains a field attribute of the first group contains the address of the site "R" surface rendering of the first group index "1,3", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "to 1.3";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "1,3" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second g is uppy and equality is the basis of compliance with the section "B" surface rendering of the third group and receives a positive test result this field value attribute of the first group on equality grounds of conformity section "R" surface rendering of the first group;

and then the result of adding the logical address of the pixel "P" of the color image index "1,3" and the offset of the first group calculates the address where the mainly operational storage device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "1,3".

After calculation of the address in the main memory device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "1,3",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "1,3" and a sign of compliance with the section "R" surface rendering of the first group, the main processor 110

reads from the main memory device 140 these data "r" of the first group and assigns the data "r" of the first group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "R" surface rendering of the first group index "1,3", contains a field attribute of the second group and n is is the first element in the sequence of the elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "R" surface rendering of the first group index "to 1.3";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "R" surface rendering of the first group index "1,3" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 220 address parcel "R" surface rendering of the first group index "1,3," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Etc.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "480,128", contains a field attribute p is pout group, contains the address of the location "b" surface rendering of the third group index "480,128", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 120 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "480,128";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "480,128" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering first the th group, on equality grounds of compliance with the section "G" of the surface rendering of the second group and the equality sign of compliance with the section "B" surface rendering of the third group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "B" surface rendering of the third group;

and then in addition to this logical address of pixel "P" of the color image index "480,128 and offset of the third group calculates the address where the mainly operational storage device 140 are the data "b" of the third group, are included in this logical pixel "P" of the color image index "480,128".

After calculation of the address in the main memory unit 140 are the data "b" of the third group included in the logical pixel "P" of the color image index "480,128",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "480,128" and a sign of compliance with the section "B" surface rendering of the third group,

the main processor 110 reads from the main memory device 140 of the data"b" of the third group and assigns the data "b" of the third group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "B" surface rendering of the third group index "480,128", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "B" surface rendering of the third group index "480,128";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "B" surface rendering of the third group index "480,128" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 220 address parcel "B" surface rendering of the third group index "480,128," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, costall the abuser following 8 bits of 32-bit words, this data element constituting the upper 8 bits of 32-bit words.

The examples give an idea of how the third example of the formation of data elements according to the second variant embodiment of the invention are formed other data items, one-to-one corresponding elements of control table located in the same row of the management table.

For the implementation of the third example of the formation of data elements according to the second variant embodiment of the invention, the frequency generator 305 clock frequency and the division ratio of customizable divider 307 frequency, shown in Fig, are selected so that the frequency of the pulse signal STROBE DATA output adjustable divider 307 frequency was 3686400 Hz. The frequency generator 310 clock frequency and the division ratio of customizable divider 312 frequency, shown in Fig, are selected so that the frequency of the pulse signal "SYNC" output adjustable divider 312 frequency was 3932160 Hz. These values frequency pulse signal "DATA STROBE" signal "SYNC" provide a view of one frame of the mentioned color image on the surface of the display module 220 with a frequency of 60 Hz.

A third example of display elements stored the data on the surface of the dot matrix screen according to the second variant embodiment of the invention.

The information in this example, based on information set forth in the third example, the formation of data elements to be displayed on the surface of the dot matrix screen according to the second variant embodiment of the invention. As a third display example of data elements of the display module 220, shown in figure 2, according to the second variant embodiment of the invention it is sufficient to consider displaying multiple data items, one-to-one corresponding elements of control tables stored in the main memory device 140, shown in figure 4. These elements of control tables are located in one row of the control table. This string is the driving table is the only line is the only field of the management table.

The first element in the above line items, the driving table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,1" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,1".

The next item in the line items of the management table is s is element, contains the address shown on Fig section "G" of the surface rendering of the second group index "1,2" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,2".

The next item in the line items of the management table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,3" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,3".

Etc.

The last element in the above line items, the driving table is the element that contains the address shown on Fig location "b" surface rendering of the third group index "480,128" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "480,128".

Before displaying the data item, one-to-one corresponding upon the wrapped element management table, contains the address of the site "R" surface rendering of the first group index "1,1" and the field attribute of the second group, on the surface of the display module 220, the display module 220 performs the following operations:

first receives from the control module 100, shown in figure 1, and remembers similar to that shown in Fig register-latch 802, having an address parcel "R" surface rendering of the first group index "1,1", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input of the reset shown in Fig;

and then periodically at high speed checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on the equality of the terminator line management table to obtain a positive result of this test.

In the process of display element data, one-to-one corresponding to arbitrary item management table containing address parcel "R" surface rendering of the first group index "1,1", on the surface of the display module 220, the display module 220

first stores the data "r" of the first group contained in the address area "R" surface rendering of the first group is s index "1,1" register-latch 802, in similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "r" of the first group contained in this register-latch 806, the luminous flux of red color, directed from this site "R" surface rendering of the first group index "1,1".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "G" surface rendering of the second group index "1,2" and the field attribute of the second group, on the surface of the display module 220, the display module 220 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "G" surface rendering of the second group index "1,2", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then periodically at high speed checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on the equality of the terminator line management table to obtain a positive result of this test.

In% the SSE display element data, one-to-one corresponding to arbitrary item management table containing address parcel "G" surface rendering of the second group index "1,2", on the surface of the display module 220, the display module 220

first stores the data "g" of the second group contained in the address section "G" of the surface rendering of the second group index "1,2" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "g" of the second group contained in this register-latch 806, luminous flux green directed from this site "G" surface rendering of the second group index "1,2".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "R" surface rendering of the first group index "1,3" and the field attribute of the second group, on the surface of the display module 220, the display module 220 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "R" surface rendering of the first group index "1,3", this data item, and stores the value n is La attribute of the second group in the D-trigger 309 with a reset input;

and then periodically at high speed checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on the equality of the terminator line management table to obtain a positive result of this test.

In the process of display element data, one-to-one corresponding to arbitrary item management table containing address parcel "R" surface rendering of the first group index "1,3", on the surface of the display module 220, the display module 220

first stores the data "r" of the first group contained in the address area "R" surface rendering of the first group index "1,3" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "r" of the first group contained in this register-latch 806, the luminous flux of red color, directed from this site "R" surface rendering of the first group index "1,3".

Etc.

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "B" surface rendering of the third group and the a-index "480,128" and the field attribute of the second group, on the surface of the display module 220, the display module 220 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "B" surface rendering of the third group index "480,128", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on equality grounds complete line of the control table and gets a positive result of this test.

In the process of display element data, one-to-one corresponding to arbitrary item management table containing address parcel "B" surface rendering of the third group index "480,128", on the surface of the display module 220, the display module 220

first stores the data "b" of the third group contained in address location "b" surface rendering of the third group index "480,128" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "b", the third of the th group, contained in this register-latch 806, the luminous flux of blue color cast from this site "In the" surface rendering of the third group index "480,128".

The display of these data elements included in a single row of data, the display module 220 begins at the same time after receiving a positive test result field value attribute of the second group stored in the D-trigger 309 to the input of the reset on equality grounds complete line of the table control.

The examples give an idea of how the third example of display data elements on the surface of the dot matrix screen according to the second variant embodiment of the invention displays other data items, one-to-one corresponding elements of control table located in the same row of the management table.

The first example of aligning the image data to be submitted on the surface of the dot matrix screen, and surface areas of visualization that make up the surface of this dot matrix screen according to the third variant embodiment of the invention.

In this example, the number of rows of "d" and the number of columns "f" two-dimensional array of logical pixels "P" of a color image stored in the main RAM for miniumum device 140, shown in figure 4, correspond with the number of rows and number of columns of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 430, presented on 11, respectively, as

d=2k”

and

f=2t,

where

d - the number of rows of the two-dimensional array of logical pixels "P" color image;

f - the number of columns of the two-dimensional array of logical pixels "P" color image;

k is the number of rows of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 430;

t - the number of columns of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 430.

The number of rows of "d" and the number of columns "f" two-dimensional array of logical pixels "P" of the color image, respectively, 960 and 256. And the total number of logical pixels "P" color image comprising an array of logical pixels "P" of the color image is 245760.

The management table stored in the main memory device 140, describes the decomposition of the set of logical pixels "P" color image and many surface areas of visualization, respectively, on many fields and on many areas surface areas of visualization, that is, each data region includes four logical pixel "P" of the color image, and each area of the surface sections visualization includes one surface visualization. This management table consists of four fields in the table control. Each field of the management table includes 480 lines of the table control. The number of elements of control tables that make up the field of the management table, as well 61440, and the number of elements of a management table comprising four fields in the table control, as well 245760.

As an example of such a partitioning, described the management table, it is enough to consider the alignment shown in Fig the parts of the surface visualization, formed by the section "R" surface rendering of the first group index "1,1", and shown in Fig data region formed by the logical pixel "P" of the color image index "1,1", the logical pixel "P" of the color image index "1,2", the logical pixel "P" of the color image index "2,1" and logical pixel "P" of the color image index "2,2". The element management table, which contains the address of the site "R" surface rendering of the first group index "1,1" and the logical address of the pixel "P" of the color image index "1,1", is included in the first field of the management table. This element of the management that the support aligns the section "R" surface rendering of the first group index "1,1" and the logical pixel "P" of the color image index "1,1". Element management table, which contains the address of the site "R" surface rendering of the first group index "1,1" and the logical address of the pixel "P" of the color image index "1,2", is part of the second field of the management table. This element of the management table aligns the section "R" surface rendering of the first group index "1,1" and the logical pixel "P" of the color image index "1,2". Element management table, which contains the address of the site "R" surface rendering of the first group index "1,1" and the logical address of the pixel "P" of the color image index "2,1", included in the third field of the management table. This element of the management table aligns the section "R" surface rendering of the first group index "1,1" and the logical pixel "P" of the color image index "2,1". And element management table, which contains the address of the site "R" surface rendering of the first group index "1,1" and the logical address of the pixel "P" of the color image index "2,2", included in the fourth field of the management table. This element of the management table aligns the section "R" surface rendering of the first group index "1,1" and the logical pixel "P" of the color image index "2,2".

Rassmatrivaemomu example, the management table also describes the alignment shown in Fig the parts of the surface visualization educated plot "G" surface rendering of the second group index "1,2", and shown in Fig data region formed by the logical pixel "P" of the color image index "1,3", the logical pixel "P" of the color image index "1,4", the logical pixel "P" of the color image index "2,3" and logical pixel "P" of the color image index "2,4".

In this example, the management table also describes the alignment shown in Fig the parts of the surface visualization, formed a plot of "W" surface rendering of the fourth group index "2,1", and shown in Fig data region formed by the logical pixel "P" of the color image index "3,1", the logical pixel "P" of the color image index "3,2", the logical pixel "P" of the color image index "4,1" and logical pixel "P" of the color image index "4,2".

In this example, the management table also describes the alignment shown in Fig the parts of the surface visualization, educated plot "In the" surface rendering of the third group index "2,2", and shown in Fig data region formed by the logical pixel "P" of the color image index "3,3", logical paragraph shall xelem "R" color image index "3,4", a logical pixel "P" of the color image index "4.3" and a logical pixel "P" of the color image index "to 4.4".

Etc.

Similarly, each of the parts of the surface rendering surface rendering of the indicator device 430, which includes one portion "R" of the surface rendering of the first group, one part "G" of the surface rendering of the second group, one part "B" surface rendering of the third group or one part of the "W" surface rendering of the fourth group, delivered in one-to-one correspondence to the data area in the plane of the image data stored in the main memory device 140, which includes four logical pixel "P" of the color image. Each of the four logical pixels "P" color image included in the arbitrary data region is set in accordance with the section "R" surface rendering of the first group, area "G" surface rendering of the second group, the area "B" surface rendering of the third group or the section of the "W" surface rendering of the fourth group, which is part of the field surface areas of visualization, one-to-one corresponding to the data region.

The first example of the formation of elements of the data subject from whom the image on the surface of the dot matrix screen according to the third variant embodiment of the invention.

The information in this example, based on information set forth in the first example, aligning the image data to be submitted on the surface of the dot matrix screen, and surface areas of visualization that make up the surface of this dot matrix screen according to the third variant embodiment of the invention. As a first example of the formation of data elements of the control module 100, shown in figure 3, according to the third variant embodiment of the invention is sufficient to consider the formation of multiple data items, one-to-one corresponding elements of control tables stored in the main memory device 140, shown in figure 4. These elements of control tables are located in one row of the control table. Mentioned line of the table control is the first line of the first field of the management table. The number of fields this management table is equal to four.

The first element in the row of the management table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,1" and the value field of the attribute, which is not a sign of a complete line of management is ability. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1.1" and a sign of compliance with the section "R" surface rendering of the first group.

The next element in the row of the management table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,2" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,3" and a sign of conformity to section "G" of the surface rendering of the second group.

The next element in the row of the management table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,3" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index of 1.5" and a sign of compliance with the section "R" surface rendering of the first group.

Etc.

The last element in the row of the management table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,128", and the value of the field attribute which is a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,255" and a sign of conformity to section "G" of the surface rendering of the second group.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,1", contains a field attribute of the first group contains the address of the site "R" surface rendering of the first group index "1,1", contains a field attribute of the second group and is the first element in the sequence of the elements of the management table, the main processor 110, shown in figure 4, performs the following operations:

first by adding the address of this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "1,1";

then the result of adding the address of this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the core the main memory device 140, the logical address of the pixel "P" of the color image index "1,1" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group, on the basis of equality matching section "B" surface rendering of the third group and the equality sign compliance section of the "W" surface rendering of the fourth group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group;

and then in addition to this logical address of pixel "P" of the color image index "1,1" and the offset of the first group calculates the address where the mainly operational storage device 140, shown in figure 4, are the data "r" of the first group, are included in this logical pixel "P" of the color image index "1,1".

After calculation of the address in the main memory device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "1,1",

but in the process of forming this data item, one-to-one corresponding to this element of the management table, steriade is the logical address of the pixel "P" of the color image index "1.1" and a sign of compliance with the section "R" surface rendering of the first group,

the main processor 110 reads from the main memory device 140 these data "r" of the first group and assigns the data "r" of the first group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "R" surface rendering of the first group index "1,1", contains a field attribute of the second group and is the first element in the sequence of the elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "R" surface rendering of the first group index "1,1";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "R" surface rendering of the first group index "1,1" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 230, p is shown in figure 3, address parcel "R" surface rendering of the first group index "1,1," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,3", contains a field attribute of the first group contains address parcel "G" surface rendering of the second group index "1,2", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "to 1.3";

then, in the result of addition of the calculated addresses this element is the driving table and the offset of the seventh group calculates the address which basically random access memory device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "1,3" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group, on the basis of equality matching section "B" surface rendering of the third group and the equality sign compliance section of the "W" surface rendering of the fourth group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "G" of the surface rendering of the second group;

and then in addition to this logical address of pixel "P" of the color image index "1,3" and the offset of the second group calculates the address where the mainly operational storage device 140 contains data on the "g" of the second group, are included in this logical pixel "P" of the color image index "1,3".

After calculation of the address, which mainly operational saponin the next device 140 contains data on the "g" of the second group, included in the logical pixel "P" of the color image index "1,3",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "1,3" and a sign of conformity to section "G" of the surface rendering of the second group, the main processor 110

reads from the main memory device 140 the data "g" of the second group and assigns the data "g" of the second group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "G" surface rendering of the second group index "1,2", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "G" surface rendering of the second group index "1,2";

then the result of adding the address of this element of the management table and the offset of the eighth group wikis yet address, which basically random access memory device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "G" surface rendering of the second group index "1,2" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 230 address parcel "G" surface rendering of the second group index "1,2", constituting the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,5", contains a field attribute of the first group contains the address of the site "R" surface rendering of the first group index "1,3", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset is everday group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "to 1.5";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index of 1.5 and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group, on the basis of equality matching section "B" surface rendering of the third group and the equality sign compliance section of the "W" surface rendering of the fourth group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group;

asetem in addition to this logical address of pixel "P" of the color image index "1.5" and the offset of the first group calculates the address which basically random access memory device 140 contains data on the "r" of the first group, are included in this logical pixel "P" of the color image index "to 1.5".

After calculation of the address in the main memory device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "to 1.5",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index of 1.5" and a sign of compliance with the section "R" surface rendering of the first group,

the main processor 110 reads from the main memory device 140 these data "r" of the first group and assigns the data "r" of the first group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "R" surface rendering of the first group index "1,3", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element pack is alausa table and offset of the sixth group calculates the address which basically random access memory device 140 is address parcel "R" surface rendering of the first group index "to 1.3";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 this address parcel "R" surface rendering of the first group index "1,3" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 230 address parcel "R" surface rendering of the first group index "1,3," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Etc.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,255", contains a field attribute of the first group contains address parcel "G" surface rendering of the second group index "1,128", contains a field attribute of the second group and is not the first element of the sequence elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "1,255";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "1,255", and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group, on the basis of equality matching section "B" surface rendering of the third group and the equality sign is sootvetstvija section of the "W" surface rendering of the fourth group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "G" of the surface visualization the second group;

and then in addition to this logical address of pixel "P" of the color image index "1,255", and the offset of the second group calculates the address where the mainly operational storage device 140 contains data on the "g" of the second group, are included in this logical pixel "P" of the color image index "1,255".

After calculation of the address in the main memory device 140 contains data on the "g" of the second group comprise the logical pixel "P" of the color image index "1,255",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "1,255" and a sign of conformity to section "G" of the surface rendering of the second group,

the main processor 110 reads from the main memory device 140 the data "g" of the second group and assigns the data "g" of the second group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "G" surface rendering of the second group index "1,128", contains a field attribute of the second group and is not the first e is the element in the sequence of the elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "G" surface rendering of the second group index "1,128";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "G" surface rendering of the second group index "1,128", and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 230 address parcel "G" surface rendering of the second group index "1,128", constituting the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

The examples give an idea about how the first example of the formation of data elements according to the second variant embodiment of the invention are formed other data items, one-to-one matching the elements of control table located in the same row of the management table in the other rows of the table control.

To implement the first example of the formation of data elements according to a third variant of the invention, the frequency generator 305 clock frequency and the division ratio of customizable divider 307 frequency, shown in Fig, are selected so that the frequency of the pulse signal STROBE DATA output adjustable divider 307 frequency was 14745600 Hz. The frequency generator 310 clock frequency and the division ratio of customizable divider 312 frequency, shown in Fig, are selected so that the frequency of the pulse signal "SYNC" output adjustable divider 312 frequency was 15728640 Hz. These values frequency pulse signal "DATA STROBE" signal "SYNC" provide a view of one frame of the mentioned color image on the surface of the display module 230 with a frequency of 60 Hz.

The first example of display data elements on the surface of the dot matrix screen according to the third variant embodiment of the invention.

The information in this example, based on information set forth in the first example of the formation of the data elements to be displayed on the surface of point matriculation according to the third variant embodiment of the invention. As a first example of display data items, the display module 230, shown in figure 3, according to the third variant embodiment of the invention it is sufficient to consider displaying multiple data items, one-to-one corresponding elements of control tables stored in the main memory device 140, shown in figure 4. These elements of control tables are located in one row of the control table. Mentioned line of the table control is the first line of the first field of the management table. The number of fields this management table is equal to four.

The first element in the above line items, the driving table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,1" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,1".

The next item in the line items of the management table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,2" and the value field of the attribute, which is not the terminator is the line control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,3".

The next item in the line items of the management table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,3" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "to 1.5".

Etc.

The last element in the above line items, the driving table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,128" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,255".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "R" surface rendering of the first group index "1,1" and the field attribute of the second group, on the surface of the display module 230 E. the security module 230 performs the following operations:

first receives from the control module 100, shown in figure 1, and remembers similar to that shown in Fig register-latch 802, having an address parcel "R" surface rendering of the first group index "1,1", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input of the reset shown in Fig;

and then periodically at high speed checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on the equality of the terminator line management table to obtain a positive result of this test.

In the process of display element data, one-to-one corresponding to arbitrary item management table containing address parcel "R" surface rendering of the first group index "1,1", on the surface of the display module 230, the display module 230

first stores the data "r" of the first group contained in the address area "R" surface rendering of the first group index "1,1" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "r" of the first group contained in reg the arrows latch 806, in luminous flux of red color, directed from this site "R" surface rendering of the first group index "1,1".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "G" surface rendering of the second group index "1,2" and the field attribute of the second group, on the surface of the display module 230, the display module 230 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "G" surface rendering of the second group index "1,2", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then periodically at high speed checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on the equality of the terminator line management table to obtain a positive result of this test.

In the process of display element data, one-to-one corresponding to arbitrary item management table containing address parcel "G" surface rendering of the second group with a suffix is AMI "1,2", on the surface of the display module 230, the display module 230

first stores the data "g" of the second group contained in the address section "G" of the surface rendering of the second group index "1,2" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "g" of the second group contained in this register-latch 806, luminous flux green directed from this site "G" surface rendering of the second group index "1,2".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "R" surface rendering of the first group index "1,3" and the field attribute of the second group, on the surface of the display module 230, the display module 230 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "R" surface rendering of the first group index "1,3", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then periodically at high speed checks the value of the signal "ENABLE" is and direct the output of D-flip-flop 309 to the input of the reset equal recorded in the trigger value field of the attribute on the equality of the terminator line management table to obtain a positive result of this test.

In the process of display element data, one-to-one corresponding to arbitrary item management table containing address parcel "R" surface rendering of the first group index "1,3", on the surface of the display module 230, the display module 230

first stores the data "r" of the first group contained in the address area "R" surface rendering of the first group index "1,3" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "r" of the first group contained in this register-latch 806, the luminous flux of red color, directed from this site "R" surface rendering of the first group index "1,3".

Etc.

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "G" surface rendering of the second group index "1,128" and the field attribute of the second group, on the surface of the display module 230, the display module 230 performs the following operations:

first take the AET from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "G" surface rendering of the second group index "1,128", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on equality grounds complete line of the control table and gets a positive result of this test.

In the process of display element data, one-to-one corresponding to arbitrary item management table containing address parcel "G" surface rendering of the second group index "1,128", on the surface of the display module 230, the display module 230

first stores the data "g" of the second group contained in the address section "G" of the surface rendering of the second group index "1,128" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "g" of the second group contained in this register-latch 806, luminous flux green directed from this site "G" surface rendering of the second group index "1,128".

The display of these data elements comprising the composition of a single row of data, the display module 230 begins at the same time after receiving a positive test result field value attribute of the second group stored in the D-trigger 309 to the input of the reset on equality grounds complete line of the table control.

The examples give an idea about how the first example of display data elements on the surface of the dot matrix screen according to the third variant embodiment of the invention displays other data items, one-to-one corresponding elements of control table located in the same row of the management table in the other rows of the table control.

The second example of aligning the image data to be submitted on the surface of the dot matrix screen, and surface areas of visualization that make up the surface of this dot matrix screen according to the third variant embodiment of the invention.

In this example, the number of rows of "d" and the number of columns "f" two-dimensional array of logical pixels "P" of a color image stored in the main memory device 140, shown in figure 4, correspond with the number of rows and number of columns of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 430, PR is stavlennika figure 11, accordingly, as

d=k/2

and

f=t/2,

where

d - the number of rows of the two-dimensional array of logical pixels "P" color image;

f - the number of columns of the two-dimensional array of logical pixels "P" color image;

k is the number of rows of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 430;

t - the number of columns of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 430.

The number of rows of "d" and the number of columns "f" two-dimensional array of logical pixels "P" color image respectively 240 and 64. And the total number of logical pixels "P" color image comprising an array of logical pixels "P" of the color image is equal to 15360.

The management table stored in the main memory device 140, describes the decomposition of the set of logical pixels "P" color image and many surface areas of visualization, respectively, on many fields and on many areas surface areas of visualization, in which each data region includes one logical pixel "P" of the color image, and each region of the surface sections visualization includes four surface visualization. About the region of the data includes one logical pixel "P" of the color image describes the management table, consisting of one field of the management table. This field of the management table includes a row of the management table, the number of which is equal to the number of rows of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 430, multiplied by the number of columns of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 430, and is 61440. The number of elements of control tables that make up the field of the management table is 61440.

As an example of such a partitioning, described the management table, it is enough to consider the alignment shown in Fig data region formed by the logical pixel "P" of the color image index "1,1", and shown in Fig the parts of the surface visualization, formed by the section "R" surface rendering of the first group index "1,1", section "G" of the surface rendering of the second group index "1,2", section "W" surface rendering of the fourth group index "2,1" and parcel "B" surface rendering of the third group index "2,2". The element management table, which contains the address of the section R is a surface rendering of the first group index "1,1" and the logical address of the pixel "P" of the color image index "1,1", aligns the section "R" surface rendering of the first group index "1,1" and the logical pixel "P" of the color image index "1,1". Element management table that contains address parcel "G" surface rendering of the second group index "1,2" and the logical address of the pixel "P" of the color image index "1,1", matches section "G" of the surface rendering of the second group index "1,2" and the logical pixel "P" of the color image index "1,1". Element management table, which contains the address of the site "W" surface rendering of the fourth group index "2,1" and the logical address of the pixel "P" of the color image index "1,1", aligns the section "W" surface rendering of the fourth group index "2,1" and logical pixel "P" of the color image index "1,1". And element management table, which contains the address of the location "b" surface rendering of the third group index "2,2" and the logical address of the pixel "P" of the color image index "1,1", aligns the plot "In" surface rendering of the third group index "2,2" and logical pixel "P" of the color image index "1,1".

In this example, the management table also describes the alignment is provided on Fig data region, educated logical pixel "P" of the color image index "1,2", and shown in Fig the parts of the surface visualization, formed by the section "R" surface rendering of the first group index "1,3", section "G" of the surface rendering of the second group index "1,4", section "W" surface rendering of the fourth group index "2,3" and parcel "B" surface rendering of the third group index "2,4".

In this example, the management table also describes the alignment shown in Fig data region formed by the logical pixel "P" of the color image index "2,1", and shown in Fig the parts of the surface visualization, formed by the section "R" surface rendering of the first group index "3,1", section "G" of the surface rendering of the second group index "3,2", section "W" surface rendering of the fourth group index "4,1" and parcel "B" surface rendering of the third group index "4,2".

In this example, the management table also describes the alignment shown in Fig data region formed by the logical pixel "P" of the color image index "2,2", and shown in Fig the parts of the surface visualization, formed a plot of the R surface rendering of the first group index "3,3", section "G" of the surface rendering of the second group index "3,4", section "W" surface rendering of the fourth group index "4.3", section "B" surface rendering of the third group index "to 4.4".

Etc.

Similarly, each of the parts of the surface rendering surface rendering of the indicator device 430, which includes one portion "R" of the surface rendering of the first group, one part "G" of the surface rendering of the second group, one plot "W" surface rendering of the fourth group and one part "B" surface rendering of the third group, delivered in one-to-one correspondence to the data area in the plane of the image data stored in the main memory device 140 that includes one logical pixel "P" of the color image. Each of the four sections of surface rendering, which includes one portion "R" of the surface rendering of the first group, one part "G" of the surface rendering of the second group, one plot "W" surface rendering of the fourth group and one part "B" surface rendering of the third group included in an arbitrary region of the surface sections visualization that corresponds to the logical pixel "P" of a color image I is included in the composition of the data area, one-to-one corresponding to this region of the surface sections of the visualization.

The second example of formation of data elements to be displayed on the surface of the dot matrix screen according to the third variant embodiment of the invention.

The information in this example, based on information contained in the second example, aligning the image data to be submitted on the surface of the dot matrix screen, and surface areas of visualization that make up the surface of this dot matrix screen according to the third variant embodiment of the invention. As a second example of formation of elements in the data managing module 100, shown in figure 3, according to the third variant embodiment of the invention, it is enough to consider the formation of multiple data items, one-to-one corresponding elements of control tables stored in the main memory device 140, shown in figure 4. These elements of control tables are located in the row of the management table includes one entry of the management table. The number of fields this management table is equal to one.

The first element in the mentioned field of the management table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,1" and the value field of the attribute which is a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1.1" and a sign of compliance with the section "R" surface rendering of the first group.

The next element in the mentioned field of the management table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,2" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1.1" and a sign of conformity to section "G" of the surface rendering of the second group.

Etc.

The penultimate item in the mentioned field of the management table is the element that contains the address shown on Fig plot "W" surface rendering of the fourth group index "480,127" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "240,64" and sign the compliance section of the "W" surface rendering of the fourth group.

The latter is named element in the mentioned field of the management table is the element, contains the address shown on Fig location "b" surface rendering of the third group index "480,128" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "240,64" and a sign of compliance with the section "B" surface rendering of the third group.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,1", contains a field attribute of the first group contains the address of the site "R" surface rendering of the first group index "1,1", contains a field attribute of the second group and is the first element in the sequence of the elements of the management table, the main processor 110, shown in figure 4, performs the following operations:

first by adding the address of this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "1,1";

then the result of adding the address of this element of the management table and the offset of the seventh group calculates the ADR is with, which basically random access memory device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "1,1" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group, on the basis of equality matching section "B" surface rendering of the third group and the equality sign compliance section of the "W" surface rendering of the fourth group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group;

and then in addition to this logical address of pixel "P" of the color image index "1,1" and the offset of the first group calculates the address where the mainly operational storage device 140 contains data on the "r" of the first group, are included in this logical pixel "P" of the color image index "1,1".

After calculation of the address, which mainly operational saponin the next device 140 contains data on the "r" of the first group, included in the logical pixel "P" of the color image index "1,1",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "1.1" and a sign of compliance with the section "R" surface rendering of the first group,

the main processor 110 reads from the main memory device 140 these data "r" of the first group and assigns the data "r" of the first group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "R" surface rendering of the first group index "1,1", contains a field attribute of the second group and is the first element in the sequence of the elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "R" surface rendering of the first group index "1,1";

then the result of adding the address of this element of the management table and the offset of the eighth group vychislyaet the address, which basically random access memory device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "R" surface rendering of the first group index "1,1" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 230, shown in figure 3, address parcel "R" surface rendering of the first group index "1,1," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,1", contains a field attribute of the first group contains address parcel "G" surface rendering of the second group index "1,2", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of elements of upravlyatora and offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "1,1";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "1,1" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group, on the basis of equality matching section "B" surface rendering of the third group and the equality sign compliance section of the "W" surface rendering of the fourth group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "G" of the surface rendering of the second group;

asetem the result of adding the logical address of the pixel "P" of the color image index "1,1" and the offset of the second group calculates the address which basically random access memory device 140 contains data on the "g" of the second group comprise the logical pixel "P" of the color image index "1,1".

After calculation of the address in the main memory device 140 contains data on the "g" of the second group comprise the logical pixel "P" of the color image index "1,1",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "1.1" and a sign of conformity to section "G" of the surface rendering of the second group,

the main processor 110 reads from the main memory device 140 the data "g" of the second group and assigns the data "g" of the second group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "G" surface rendering of the second group index "1,2", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element operated the soup table and offset of the sixth group calculates the address which basically random access memory device 140 is address parcel "G" surface rendering of the second group index "1,2";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "G" surface rendering of the second group index "1,2" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 230 address parcel "G" surface rendering of the second group index "1,2", constituting the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Etc.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "240,64", contains a field attribute of the first group contains the address of the site "W" surface rendering of the fourth group index "480,127", contains a field attribute of the second group and is not the first element of the sequence elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "240,64";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "240,64" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group, on the basis of equality matching section "B" surface rendering of the third group and the equality presencestate section of the "W" surface rendering of the fourth group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "W" surface visualization the fourth group;

then the result of adding the logical address of the pixel "P" of the color image index "240,64" and the offset of the first group calculates the address where the mainly operational storage device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "240,64";

then the result of adding the logical address of the pixel "P" of the color image index "240,64" and the offset of the second group calculates the address where the mainly operational storage device 140 contains data on the "g" of the second group comprise the logical pixel "P" of the color image index "240,64";

and then the result of adding the logical address of the pixel "P" of the color image index "240,64 and offset of the third group calculates the address where the mainly operational storage device 140 are the data "b" of the third group included in the logical pixel "P" of the color image index "240,64".

After calculation of the address in the main memory device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "240,64", after the calculation of the address in the main memory device 10 are the data "g" of the second group, included in the logical pixel "P" of the color image index "240,64", and after calculation of the address in the main memory unit 140 are the data "b" of the third group included in the logical pixel "P" of the color image index "240,64",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "240,64" and sign the compliance section of the "W" surface rendering of the fourth group, the main processor 110 performs the following operations:

first reads from the main memory device 140 these data "r" of the first group, the data "g" of the second group and the data "b" of the third group;

then, in accordance with the algorithm of calculation data of the fourth group are presented on Fig, compares between these data "r" of the first group, the data "g" of the second group and the data "b" of the third group and sets the data value "w" of the fourth group is equal to the value of these data "r" of the first group, the meaning of the data "g" of the second group or the meaning of the data "b" of the third group, not exceeding, respectively, the values of these data "g" of the second group, the values of these data "b" of the third group is if the values of these data "r" of the first group and not exceeding, accordingly, the value of the data "b" of the third group, the values of these data "r" of the first group or the values of these data "g" of the second group;

and then assigns the data "w" of the fourth group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains the address of the site "W" surface rendering of the fourth group index "480,127", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "W" surface rendering of the fourth group index "480,127";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "W" surface rendering of the fourth group index "480,127" and the value of this attribute fields of the second group;

<> and then simultaneously transmits to the display module 230 address parcel "W" surface rendering of the fourth group index "480,127," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "240,64", contains a field attribute of the first group contains the address of the site "In the" surface rendering of the third group index "480,128", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "240,64";

the ATEM as a result of addition of the calculated addresses this element of the management table and the offset of the seventh group calculates the address which basically random access memory device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "240,64" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group, on the basis of equality matching section "B" surface rendering of the third group and the equality sign compliance section of the "W" surface rendering of the fourth group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "B" surface rendering of the third group;

and then in addition to this logical address of pixel "P" of the color image index "240,64 and offset of the third group calculates the address where the mainly operational storage device 140 are the data "b" of the third group, are included in this logical pixel "P" of the color image index "240,64".

After calculation of the address, which basically promptly the storage device 140 are the data "b" of the third group, included in the logical pixel "P" of the color image index "240,64",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "240,64" and a sign of compliance with the section "B" surface rendering of the third group,

the main processor 110 reads from the main memory device 140 of the data "b" of the third group and assigns the data "b" of the third group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "B" surface rendering of the third group index "480,128", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "B" surface rendering of the third group index "480,128";

then the result of adding the address of this element of the management table and the offset of wasmo the group calculates the address which basically random access memory device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "B" surface rendering of the third group index "480,128" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 230 address parcel "B" surface rendering of the third group index "480,128," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

The examples give an idea of how the second example of formation of data elements according to a third variant embodiment of the invention are formed other data items, one-to-one corresponding elements of control table located in the same field of the management table.

For the implementation of the second example of formation of data elements according to a third variant of the invention, the frequency generator 305 clock frequency and the division ratio of customizable divider 307 frequency, shown in Fig, are selected so that the frequency of the pulse signal "DATA STROBE" output setting on the amplifier 307 frequency was 3686400 Hz. The frequency generator 310 clock frequency and the division ratio of customizable divider 312 frequency, shown in Fig, are selected so that the frequency of the pulse signal "SYNC" output adjustable divider 312 frequency was 3932160 Hz. These values frequency pulse signal "DATA STROBE" signal "SYNC" provide a view of one frame of the mentioned color image on the surface of the display module 230 with a frequency of 60 Hz.

The second example of display data elements on the surface of the dot matrix screen according to the third variant embodiment of the invention.

The information in this example, based on information contained in the second example, the formation of data elements to be displayed on the surface of the dot matrix screen according to the third variant embodiment of the invention. As a second example of display data items, the display module 230, shown in figure 3, according to the third variant embodiment of the invention it is sufficient to consider displaying multiple data items, one-to-one corresponding elements of control tables stored in the main memory device 140, shown in figure 4. These elements of the management table is located is in the row of the management table, includes one element of the management table. The number of fields this management table is equal to one.

The first element in the mentioned field of the management table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,1" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,1".

The next element in the mentioned field of the management table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,2" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,1".

Etc.

The penultimate item in the mentioned field of the management table is the element that contains the address shown on Fig plot "W" surface rendering of the fourth group index "480,127" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address is provided on Fig logical pixel "P" of the color image index "240,64".

The last element in the mentioned field of the management table is the element that contains the address shown on Fig location "b" surface rendering of the third group index "480,128" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "240,64".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "R" surface rendering of the first group index "1,1" and the field attribute of the second group, on the surface of the display module 230, the display module 230 performs the following operations:

first receives from the control module 100, shown in figure 1, and remembers similar to that shown in Fig register-latch 802, having an address parcel "R" surface rendering of the first group index "1,1", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input of the reset shown in Fig;

and then checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on the equality p is isaku finish line of the control table and gets a positive result of this test.

In the process of display element data, one-to-one corresponding to arbitrary item management table containing address parcel "R" surface rendering of the first group index "1,1", on the surface of the display module 230, the display module 230

first stores the data "r" of the first group contained in the address area "R" surface rendering of the first group index "1,1" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "r" of the first group contained in this register-latch 806, the luminous flux of red color, directed from this site "R" surface rendering of the first group index "1,1".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "G" surface rendering of the second group index "1,2" and the field attribute of the second group, on the surface of the display module 230, the display module 230 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "G" surface rendering of the second group index "1,2", this e is ment data, and remembers the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on equality grounds complete line of the control table and gets a positive result of this test.

In the process of display element data, one-to-one corresponding to arbitrary item management table containing address parcel "G" surface rendering of the second group index "1,2", on the surface of the display module 230, the display module 230

first stores the data "g" of the second group contained in the address section "G" of the surface rendering of the second group index "1,2" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "g" of the second group contained in this register-latch 806, luminous flux green directed from this site "G" surface rendering of the second group index "1,2".

Etc.

Before displaying the data item, one-to-one corresponding to said element driving table containing the address phase the "W" surface rendering of the fourth group index "480,127" and the field attribute of the second group, on the surface of the display module 230, the display module 230 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "W" surface rendering of the fourth group index "480,127", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on equality grounds complete line of the control table and gets a positive result of this test.

In the process of display element data, one-to-one corresponding to arbitrary item control table that contains the address of the site "W" surface rendering of the fourth group index "480,127", on the surface of the display module 230, the display module 230

first stores the data "w" of the fourth group contained in the address area "W" surface rendering of the fourth group index "480,127" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts these data w the fourth group, contained in this register-latch 806, luminous flux achromatic color directed from this site "W" surface rendering of the fourth group index "480,127".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "B" surface rendering of the third group index "480,128" and the field attribute of the second group, on the surface of the display module 230, the display module 230 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "B" surface rendering of the third group index "480,128", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on equality grounds complete line of the control table and gets a positive result of this test.

In the process of display element data, one-to-one corresponding to arbitrary item management table containing address parcel "B" surface imaging the third group index "480,128", on the surface of the display module 230, the display module 230

first stores the data "b" of the third group contained in address location "b" surface rendering of the third group index "480,128" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "b" of the third group contained in this register-latch 806, the luminous flux of blue color cast from this site "In the" surface rendering of the third group index "480,128".

Mapping each data item, the display module 230 begins immediately after receiving a positive test result field value attribute of the second group stored in the D-trigger 309 to the input of the reset on equality grounds complete line of the table control.

The examples give an idea of how the second example of display data elements on the surface of the dot matrix screen according to the third variant embodiment of the invention displays other data items, one-to-one corresponding elements of control table located in the same field of the management table.

The third example of aligning the image data to be submitted on the surface of the dot is on the matrix screen, and surface areas of visualization that make up the surface of this dot matrix screen according to the third variant embodiment of the invention.

In this example, the number of rows of "d" and the number of columns "f" two-dimensional array of logical pixels "P" of a color image stored in the main memory device 140, shown in figure 4, correspond with the number of rows and number of columns of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 430, presented on 11, respectively, as

d=k”

and

f=t”

where

d - the number of rows of the two-dimensional array of logical pixels "P" color image;

f - the number of columns of the two-dimensional array of logical pixels "P" color image;

k is the number of rows of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 430;

t - the number of columns of a two-dimensional matrix surface areas of the imaging surface of the imaging indicating device 430.

The number of rows of "d" and the number of columns "f" two-dimensional array of logical pixels "P" of the color image, respectively 480 and 128. And the total number of logical pixels "P" color image comprising an array of logical pixels "P" colored picture is of, is 61440.

The management table stored in the main memory device 140, describes the decomposition of the set of logical pixels "P" color image and many surface areas of visualization, respectively, on many fields and on many areas surface areas of visualization, in which each data region includes one logical pixel "P" of the color image, and each region of the surface sections visualization includes one surface visualization. The data region includes one logical pixel "P" of the color image describes the management table, consisting of one field of the management table. This field of the management table includes only one row of the control table. The number of elements of control tables that make up this field elements, is 61440.

As an example of such a partitioning, described the management table, it is enough to consider the alignment presented in Fig data region formed by the logical pixel "P" of the color image index "1,1", and presented at Fig the parts of the surface visualization, formed by the section "R" surface rendering of the first group index "1,1"presented at IG data region, educated logical pixel "P" of the color image index "1,2", and presented at Fig the parts of the surface rendering formed section "G" of the surface rendering of the second group index "1,2", presented at Fig data region formed by the logical pixel "P" of the color image index "2,1", and presented at Fig the parts of the surface visualization, formed a plot of "W" surface rendering of the fourth group index "2,1", presented at Fig data region formed by the logical pixel "P" of the color image index "2,2", and presented at Fig the parts of the surface visualization, educated plot "In the" surface rendering of the third group index "2,2". The element management table, which contains the address of the site "R" surface rendering of the first group index "1,1" and the logical address of the pixel "P" of the color image index "1,1", aligns the section "R" surface rendering of the first group index "1,1" and the logical pixel "P" of the color image index "1,1". Element management table that contains address parcel "G" surface rendering of the second group index "1,2" and the logical address of the pixel "P" of a color is zobrazenie index "1,2", aligns the section "G" of the surface rendering of the second group index "1,2" and the logical pixel "P" of the color image index "1,2". Element management table, which contains the address of the site "W" surface rendering of the fourth group index "2,1" and the logical address of the pixel "P" of the color image index "2,1", aligns the section "W" surface rendering of the fourth group index "2,1" and logical pixel "P" of the color image index "2,1". And element management table, which contains the address of the location "b" surface rendering of the third group index "2,2" and the logical address of the pixel "P" of the color image index "2,2", aligns the plot "In" surface rendering of the third group index "2,2" and logical pixel "P" of the color image index "2,2".

Etc.

Similarly, each of the parts of the surface rendering surface rendering of the indicator device 430, which includes one portion "R" of the surface rendering of the first group, one part "G" of the surface rendering of the second group, one part "B" surface rendering of the third group or one part of the "W" surface rendering of the fourth group, delivered in one-to-one line is their data region on the plane of the image data, stored in the main memory device 140 that includes one logical pixel "P" of the color image. When this logical pixel "P" of the color image included in the arbitrary data region is set in accordance with the section "R" surface rendering of the first group, area "G" surface rendering of the second group, the area "B" surface rendering of the third group or the section of the "W" surface rendering of the fourth group, which is part of the field surface areas of visualization, one-to-one corresponding to the data region.

The third example of the formation of the data elements to be displayed on the surface of the dot matrix screen according to the third variant embodiment of the invention.

The information in this example, based on information set forth in the third example, aligning the image data to be submitted on the surface of the dot matrix screen, and surface areas of visualization that make up the surface of this dot matrix screen according to the third variant embodiment of the invention. As a third example of the formation of data elements of the control module 100, shown in figure 3, according to the third variant embodiment of the invention rises is to consider the formation of several data elements, one-to-one corresponding elements of control tables stored in the main memory device 140, shown in figure 4. These elements of control tables are located in one row of the control table. This string is the driving table is the only line is the only field of the management table.

The first element in the row of the management table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,1" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1.1" and a sign of compliance with the section "R" surface rendering of the first group.

The next item in the line items of the management table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,2" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,2" and a sign of conformity to section "G" stand is rnost visualization of the second group.

Etc.

The penultimate item in the line items of the management table is the element that contains the address shown on Fig plot "W" surface rendering of the fourth group index "480,127" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "480,127" and sign the compliance section of the "W" surface rendering of the fourth group.

The last element in the above line items, the driving table is the element that contains the address shown on Fig location "b" surface rendering of the third group index "480,128" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "480,128" and a sign of compliance with the section "B" surface rendering of the third group.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,1", contains a field attribute of the first group contains the address of the site is R" surface rendering of the first group index "1,1", contains a field attribute of the second group and is the first element in the sequence of the elements of the management table, the main processor 110, shown in figure 4, performs the following operations:

first by adding the address of this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "1,1";

then the result of adding the address of this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "1,1" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group, on the basis of equality matching section "B" surface rendering of the third group and the equality sign compliance section of the "W" surface rendering of the fourth group and receives put the preliminary results of the validation of this field value attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group;

and then in addition to this logical address of pixel "P" of the color image index "1,1" and the offset of the first group calculates the address where the mainly operational storage device 140 contains data on the "r" of the first group, are included in this logical pixel "P" of the color image index "1,1".

After calculation of the address in the main memory device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "1,1",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "1.1" and a sign of compliance with the section "R" surface rendering of the first group,

the main processor 110 reads from the main memory device 140 these data "r" of the first group and assigns the data "r" of the first group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "R" surface rendering of the first group index "1,1", contains a field attribute of the second group and is the first element in the serial the major elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "R" surface rendering of the first group index "1,1";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "R" surface rendering of the first group index "1,1" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 230, shown in figure 3, address parcel "R" surface rendering of the first group index "1,1," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "1,2", contains a field at which ibute the first group, contains address parcel "G" surface rendering of the second group index "1,2", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "1,2";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "1,2" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group is, on equality grounds of compliance with the section "G" of the surface rendering of the second group, on the basis of equality matching section "B" surface rendering of the third group and the equality sign compliance section of the "W" surface rendering of the fourth group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "G" of the surface rendering of the second group;

and then in addition to this logical address of pixel "P" of the color image index "1,2" and the offset of the second group calculates the address where the mainly operational storage device 140 contains data on the "g" of the second group, are included in this logical pixel "P" of the color image index "1,2".

After calculation of the address in the main memory device 140 contains data on the "g" of the second group comprise the logical pixel "P" of the color image index "1,2",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "1,2" and a sign of conformity to section "G" of the surface rendering of the second group,

the main processor the from the main memory device 140 the data "g" of the second group and assigns the data "g" of the second group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "G" surface rendering of the second group index "1,2", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "G" surface rendering of the second group index "1,2";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "G" surface rendering of the second group index "1,2" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 230 address parcel "G" surface rendering of the second group index "1,2", constituting the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising sleduushie bit 32-bit words, this data element constituting the upper 8 bits of 32-bit words.

Etc.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "480,127", contains a field attribute of the first group contains the address of the site "W" surface rendering of the fourth group index "480,127", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element of the management table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "480,127";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then scity the AET from the main memory device 140, the logical address of the pixel "P" of the color image index "480,127" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group, on the basis of equality matching section "B" surface rendering of the third group and the equality sign compliance section of the "W" surface rendering of the fourth group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "W" surface rendering of the fourth group;

then the result of adding the logical address of the pixel "P" of the color image index "480,127" and the offset of the first group calculates the address where the mainly operational storage device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "480,127";

then the result of adding the logical address of the pixel "P" of the color image index "480,127" and the offset of the second group calculates the address where the mainly operational storage device 140 contains data on the "g" of the second group comprise the logical pixel "P" of the color image index "480,127";

and then in addition addresses the logs the definition of the pixel "P" of the color image index "480,127 and offset of the third group calculates the address which basically random access memory device 140 are the data "b" of the third group included in the logical pixel "P" of the color image index "480,127".

After calculation of the address in the main memory device 140 contains data on the "r" of the first group comprise the logical pixel "P" of the color image index "480,127", after the calculation of the address in the main memory device 140 contains data on the "g" of the second group comprise the logical pixel "P" of the color image index "480,127", and after calculation of the address in the main memory unit 140 are the data "b" of the third group included in the logical pixel "P" color image index "480,127",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "480,127" and sign the compliance section of the "W" surface rendering of the fourth group,

the main processor 110 performs the following operations:

first reads from the main memory device 140 these data "r" of the first group, the data "g" of the second group and these Yes the data "b" of the third group;

then, in accordance with the algorithm of calculation data of the fourth group are presented on Fig, compares between these data "r" of the first group, the data "g" of the second group and the data "b" of the third group and sets the data value "w" of the fourth group is equal to the value of these data "r" of the first group, the meaning of the data "g" of the second group or the meaning of the data "b" of the third group, not exceeding, respectively, the values of these data "g" of the second group, the values of these data "b" of the third group or the values of these data "r" of the first group and not exceeding, respectively, the values of these data "b" of the third group, the values of these data "r" of the first group or the values of these data "g" of the second group;

and then assigns the data "w" of the fourth group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains the address of the site "W" surface rendering of the fourth group index "480,127", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address at which the bases of the om random access memory device 140 is address parcel "W" surface rendering of the fourth group index "480,127";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "W" surface rendering of the fourth group index "480,127" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 230 address parcel "W" surface rendering of the fourth group index "480,127," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

Prior to forming the data item, one-to-one corresponding element of the control table that contains the logical address of the pixel "P" of the color image index "480,128", contains a field attribute of the first group contains the address of the site "In the" surface rendering of the third group index "480,128", contains a field attribute of the second group and is not the first item in the sequence elements of the management table, the main processor 110 performs the following operations:

first calculates the address of this element, the sending of the table in the result of the addition of the address of the previous element in the sequence of the elements of the management table and the offset of the fourth group;

then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address where the mainly operational storage device 140 is a logical address of pixel "P" of the color image index "480,128";

then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address where the mainly operational storage device 140 is a field attribute of the first group;

then reads from the main memory device 140, the logical address of the pixel "P" of the color image index "480,128" and the value of this attribute fields of the first group;

then it checks the value of the field attribute of the first group on equality grounds of compliance with the section "R" surface rendering of the first group, on the basis of equality matching section "G" of the surface rendering of the second group, on the basis of equality matching section "B" surface rendering of the third group and the equality sign compliance section of the "W" surface rendering of the fourth group and receives a positive test result this field value attribute of the first group on equality grounds of compliance with the section "B" surface rendering of the third group;/p>

and then the result of adding the logical address of the pixel "P" of the color image index "480,128 and offset of the third group calculates the address where the mainly operational storage device 140 are the data "b" of the third group included in the logical pixel "P" of the color image index "480,128".

After calculation of the address in the main memory unit 140 are the data "b" of the third group included in the logical pixel "P" of the color image index "480,128",

but in the process of forming this data item, one-to-one corresponding to this element of the management table containing the logical address of the pixel "P" of the color image index "480,128" and a sign of compliance with the section "B" surface rendering of the third group,

the main processor 110 reads from the main memory device 140 of the data "b" of the third group and assigns the data "b" of the third group this data element.

After the formation of this data item, one-to-one corresponding element of the control table that contains address parcel "B" surface rendering of the third group index "480,128", contains a field attribute of the second group and is not the first item in PEFC is the sequences of elements of the management table, the main processor 110 performs the following operations:

first by adding the address of this element of the management table and the offset of the sixth group calculates the address where the mainly operational storage device 140 is address parcel "B" surface rendering of the third group index "480,128";

then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address where the mainly operational storage device 140 is a field attribute of the second group;

then reads from the main memory device 140 address parcel "B" surface rendering of the third group index "480,128" and the value of this attribute fields of the second group;

and then simultaneously transmits to the display module 230 address parcel "B" surface rendering of the third group index "480,128," which is the lower 16 bits of 32-bit words, the value of the field attribute of the second group, comprising the following 8 bits of 32-bit words, and this data element constituting the upper 8 bits of 32-bit words.

The examples give an idea of how the third example of the formation of data elements according to the second variant embodiment of the invention are formed other data items, one-to-one according to the respective elements of the management table, located in the same row of the management table.

For the implementation of the third example of the formation of data elements according to a third variant of the invention, the frequency generator 305 clock frequency and the division ratio of customizable divider 307 frequency, shown in Fig, are selected so that the frequency of the pulse signal STROBE DATA output adjustable divider 307 frequency was 3686400 Hz. The frequency generator 310 clock frequency and the division ratio of customizable divider 312 frequency, shown in Fig, are selected so that the frequency of the pulse signal "SYNC" output adjustable divider 312 frequency was 3932160 Hz. These values frequency pulse signal "DATA STROBE" signal "SYNC" provide a view of one frame of the mentioned color image on the surface of the display module 230 with a frequency of 60 Hz.

A third example of display data elements on the surface of the dot matrix screen according to the third variant embodiment of the invention.

The information in this example, based on information set forth in the third example, the formation of data elements to be displayed on the surface of the dot matrix screen according to the third version of the OS the implement of the invention. As a third example of display data items, the display module 230, shown in figure 3, according to the third variant embodiment of the invention it is sufficient to consider displaying multiple data items, one-to-one corresponding elements of control tables stored in the main memory device 140, shown in figure 4. These elements of control tables are located in one row of the control table. This string is the driving table is the only line is the only field of the management table.

The first element in the above line items, the driving table is the element that contains the address shown on Fig area "R" surface rendering of the first group index "1,1" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "1,1".

The next item in the line items of the management table is the element that contains the address shown on Fig section "G" of the surface rendering of the second group index "1,2" and the value field of the attribute, which is not a sign of a complete row of the management table. This element driving the second table contains the address shown on Fig logical pixel "P" of the color image index "1,2".

Etc.

The penultimate item in the line items of the management table is the element that contains the address shown on Fig plot "W" surface rendering of the fourth group index "480,127" and the value field of the attribute, which is not a sign of a complete row of the management table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "480,127".

The last element in the above line items, the driving table is the element that contains the address shown on Fig location "b" surface rendering of the third group index "480,128" and the value field of the attribute, which is a sign of a complete row of the control table. This element of the management table contains the address shown on Fig logical pixel "P" of the color image index "480,128".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "R" surface rendering of the first group index "1,1" and the field attribute of the second group, on the surface of the display module 230, the display module 230 performs the following operations:

first receives from the control module 100, shown in figure 1, and sapam the onset similar to that shown in Fig register-latch 802, having an address parcel "R" surface rendering of the first group index "1,1", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input of the reset shown in Fig;

and then periodically at high speed checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on the equality of the terminator line management table to obtain a positive result of this test.

In the process of display element data, one-to-one corresponding to arbitrary item management table containing address parcel "R" surface rendering of the first group index "1,1", on the surface of the display module 230, the display module 230

first stores the data "r" of the first group contained in the address area "R" surface rendering of the first group index "1,1" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "r" of the first group contained in this register-latch 806, the luminous flux of red color, directed from this site "R" surface rendering of the first group index is 1,1".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "G" surface rendering of the second group index "1,2" and the field attribute of the second group, on the surface of the display module 230, the display module 230 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "G" surface rendering of the second group index "1,2", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then periodically at high speed checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on the equality of the terminator line management table to obtain a positive result of this test.

In the process of display element data, one-to-one corresponding to arbitrary item management table containing address parcel "G" surface rendering of the second group index "1,2", on the surface of the display module 230, the display module 230

first stores the data "g" of the second group, terjadinya in having an address parcel "G" surface rendering of the second group index "1,2" register-latch 802, in similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "g" of the second group contained in this register-latch 806, luminous flux green directed from this site "G" surface rendering of the second group index "1,2".

Etc.

Before displaying the data item, one-to-one corresponding to said element driving table containing the address of the site "W" surface rendering of the fourth group index "480,127" and the field attribute of the second group, on the surface of the display module 230, the display module 230 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "W" surface rendering of the fourth group index "480,127", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then periodically at high speed checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on the equality of the terminator line management table to obtain a positive result of this the checks.

In the process of display element data, one-to-one corresponding to arbitrary item control table that contains the address of the site "W" surface rendering of the fourth group index "480,127", on the surface of the display module 230, the display module 230

first stores the data "w" of the fourth group contained in the address area "W" surface rendering of the fourth group index "480,127" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "w" of the fourth group contained in this register-latch 806, luminous flux achromatic color directed from this site "W" surface rendering of the fourth group index "480,127".

Before displaying the data item, one-to-one corresponding to said element driving table containing address parcel "B" surface rendering of the third group index "480,128" and the field attribute of the second group, on the surface of the display module 230, the display module 230 performs the following operations:

first receives from the control module 100 and remembers similar to that shown in Fig register-latch 802, having an address parcel "B" surface rendering tre is La group index "480,128", this data item, and stores the value of the field attribute of the second group in the D-trigger 309 to the input reset;

and then checks the value of the signal "ENABLE" to direct the output of D-flip-flop 309 to the input of a reset is recorded in the trigger value field of the attribute on equality grounds complete line of the control table and gets a positive result of this test.

In the process of display element data, one-to-one corresponding to arbitrary item management table containing address parcel "B" surface rendering of the third group index "480,128", on the surface of the display module 230, the display module 230

first stores the data "b" of the third group contained in address location "b" surface rendering of the third group index "480,128" register-latch 802, similar to that shown Fig register-latch 806, communicates with a register-latch 802,

and then converts the data "b" of the third group contained in this register-latch 806, the luminous flux of blue color cast from this site "In the" surface rendering of the third group index "480,128".

The display of these data elements included in a single row of data, the display module 230 begins at the same time th is receiving a positive test result field value attribute of the second group, memorized in the D-trigger 309 to the input of the reset on equality grounds complete line of the table control.

The examples give an idea of how the third example of display data elements on the surface of the dot matrix screen according to the third variant embodiment of the invention displays other data items, one-to-one corresponding elements of control table located in the same row of the management table.

1. Way to represent raster data of the color image on the surface visualization, consisting of sections of surface rendering of three types, namely, that
the image data is present on the surface visualization, educated arranged in a predefined order of the parts of the surface of the imaging components of many sections of surface rendering, and
the image data are multi-color data and are in the plane of the image data logical pixels of the color image components of a set of logical pixels of the color image,
each logical pixel of the color image is expressed by collecting data of the first group, the second data group and data of the third group, in characterizing the three-dimensional color space, the three normalized the consistent color coordinates respectively conditionally "first", conventionally, the "second" and conditionally "third" linearly independent colors,
rendering surface includes a surface rendering of the first group, the surface rendering of the second group and the surface rendering of the third group, and
arbitrary (considered as a random element of the set) surface rendering of the first, second or third group is used for the visual representation on the surface of the imaging data, respectively, the first, second or third group, converted to luminous flux, respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group, characterized in that
prior to the presentation of the image data on the surface rendering determine the control table describing the partitioning of a two-dimensional array of logical pixels of the color image and the set of surface patches visualization respectively on the field data comprising multiple data regions, and the parts of the surface of the imaging components of many areas surface areas of visualization, and
arbitrary (considered as a random element of the set) the scope of the data expressed is conducted in the form of a square matrix, composed of one or multiple logical pixels of the color image are located next to each other in a two-dimensional array of logical pixels of the color image,
the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the scope of the data, pre-defined,
arbitrary (considered as a random element of the set) the area of the surface sections visualization formed from one or more parts of the surface visualization, located next to each other within an imaginary square circumscribed around this area sections of surface rendering,
the parts of the surface visualization do not overlap,
the parts of the surface rendering and the centers of the imaginary squares described about these areas, surface areas of visualization, evenly distributed on the surface of the imaging
the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, pre-defined,
each data region one-to-one corresponds to the area of the surface areas of visualization,
the order in which are located otnosheniy to each other in the plane of the image data of the geometric centers of the data regions, one-to-one corresponding areas of the surface areas of visualization, coincides with the order in which located relative to each other on the surface visualization of the geometrical centers of imaginary squares described about these areas, surface areas of visualization,
each logical pixel of the color image that constitutes arbitrary (considered as a random element of the set) of the data area that corresponds to each part of the surface of the visualization included in the field of surface areas of visualization, one-to-one corresponding to the data region, each logical pixel of a color image is included in an arbitrary (considered as a random element of the set) of the data area that corresponds to each portion of the surface rendering, which is part of the field surface areas of visualization, one-to-one corresponding to this data area, the management table contains the elements of the set of elements of the management table and located in one or more the rows comprising multiple rows of the table control,
the number of elements of the management table, arbitrary components (considered as a random element of the set) line management is ability, pre-defined,
arbitrary (considered as a random element of the set) logical pixel color image included in the one or more areas of data corresponds to one or more elements of the management table,
the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image is equal to the number of surface patches visualization corresponding to this logical pixel of the color image,
element management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image corresponds to only one surface visualization corresponding to this logical pixel of the color image,
arbitrary (considered as a random element of the set) the surface area of visualization, which is part of the field surface areas of visualization, matches one or more elements of the management table,
the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization, is equal to the number of logical pixel of the color image, corresponding to the surface area of visualization,
element management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization corresponds to only one logical pixel of the color image corresponding to the surface area of visualization,
the number of surface areas of visualization, the relevant elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is equal to the number of these elements of the management table,
elements of a management table comprising the set of elements of the management table are one or more fields of a management table comprising a set of fields of the control table,
the elements of control tables, arbitrary components (considered as a random element of the set) field of the management table, comprise one or more rows of a management table comprising a continuous sequence of rows in the driving table,
the number of elements of the management table, arbitrary components (considered as a random element of the set) field of the management table is equal to the number of areas of the surface of the imaging forming about the Asti area of the surface visualization components of many areas surface areas of visualization,
the number of fields of the management table is equal to the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, and
arbitrary (considered as a random element of the set) field of the management table includes only one member of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization included in the composition of the parts of the surface visualization;
in the process of providing image data to the surface visualization at high speed to form the data elements that comprise the set of data elements, and high-speed display these data elements on the surface visualization, and
each data element of the one-to-one corresponds to the element management table,
data elements that are one-to-one corresponding to the members of the management table, arbitrary components (considered as a random element of the set) line managing table form the data line, one-to-one corresponding to this row of the management table,
the order in which form cell battery (included) what you data forming the data line, one-to-one corresponding to arbitrary (considered as a random element of the set) row of the control table that corresponds to the order in which the elements of the management table, one-to-one corresponding to these data elements are located in this row of the management table,
the order in which form the data line, forming multiple rows of data, and the order in which they display these rows of data on the surface visualization correspond to the order in which row of the management table, one-to-one corresponding to these rows of data are in the control table, and
the data elements that make up an arbitrary (considered as a random element of the set) line data, begin to display on the surface visualization at the same time;
in the process of forming a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group,
read data, respectively, the first, second and third groups included in the logical pixel of the color image corresponding to this element of the management table, and Pris awayt these data first, the second or third group this data item;
in the process of displaying on the surface of the imaging element data, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group,
transform data, respectively, the first, second or third group contained in this data element, the light flux respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group.

2. The method according to claim 1, characterized in that
surface visualization components of the rendering surface, is formed on the surface visualization of multiple rows of surface areas of visualization, and
the spacing of the surfaces visualization in these lines the surfaces visualization equal step location on the surface rendering of these lines surface areas of visualization, and
surface visualization, forming on the surface rendering any two adjacent line sections of surface rendering, offset in these lines the surfaces of visualization in relation to each other so the m way and are arranged in such an order that any part of these two neighboring lines of the surface areas of visualization of three neighboring land surface imaging, bordering each other on the principle of each other, are located on the surface visualization at the vertices of an imaginary equilateral triangle and include surface rendering of the first group, the surface area of visualization of the second group and the surface area of visualization of the third group.

3. The method according to claim 1, characterized in that
surface visualization components of the rendering surface, is formed on the surface visualization of two-dimensional matrix surface areas of visualization, and
the spacing of the surfaces of visualization in the lines of this two-dimensional matrix surface areas of visualization equal to the spacing of the surfaces visualization in the columns of this two-dimensional matrix plots of surface rendering.

4. The method according to claim 1, characterized in that
control table describes the partitioning of a two-dimensional array of logical pixels of the color image and many surface areas of visualization, respectively, on many fields and on many areas surface areas of visualization, in which a data region on the square is Scoti image data do not overlap,
the number of data regions, one-to-one corresponding areas of the surface areas of visualization, is equal to the highest possible values for these color image and surface visualization, and
the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, is equal to the highest possible values for this pre-defined number of fields of data.

5. The visualization of raster data of the color image, characterized by signs according to claim 1, characterized in that
prior to the presentation of the image data on the surface visualization specify the algorithm for computing the data of the fourth group, in characterizing the three-dimensional color space of any of the three normalized color coordinates of the achromatic color based on the data of the first, second and third groups;
surface visualization also includes a surface rendering of the fourth group, and
arbitrary (considered as a random element of the set) surface rendering of the fourth group are used for the visual representation on the surface of the imaging data of the fourth group being converted to luminous flux Achromat is ical colors directed from this part of the surface rendering of the fourth group;
in the process of forming a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the portion of the surface rendering of the fourth group,
first read the data of the first, second and third groups that comprise the logical pixel of the color image corresponding to this element of the management table, and on the basis of these read out data of the first, second and third groups calculate the data of the fourth group,
and then assign these calculated data of the fourth group this data item, and
in the process of calculating the data of the fourth group on the basis of these read out data of the first, second and third groups and in accordance with the aforementioned algorithm for calculating the data of the fourth group
first compare these readings first, second and third groups,
and then set the value data of the fourth group is equal to the value of these read data of the first, second or third group, not exceeding the values of these read data, respectively the second, third or first group, and not exceeding the values of these read data, respectively, the third, first or second g is uppy;
in the process of displaying on the surface of the imaging element data, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the portion of the surface rendering of the fourth group,
convert the data of the fourth group contained in this data element, the luminous flux achromatic color cast from this part of the surface rendering of the fourth group.

6. The method according to claim 5, characterized in that
surface visualization components of the rendering surface, is formed on the surface visualization of two-dimensional matrix surface areas of visualization, and
the spacing of the surfaces of visualization in the lines of this two-dimensional matrix surface areas of visualization equal to the spacing of the surfaces visualization in the columns of this two-dimensional matrix plots of surface rendering.

7. The method according to claim 5, characterized in that
control table describes the partitioning of a two-dimensional array of logical pixels of the color image and many surface areas of visualization, respectively, on many fields and on many areas surface areas of visualization, in which a data region in the plane given the images do not overlap,
the number of data regions, one-to-one corresponding areas of the surface areas of visualization, is equal to the highest possible values for these color image and surface visualization, and
the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, is equal to the highest possible values for this pre-defined number of fields of data.

8. The device for implementing the method of presenting the raster data of the color image on the surface visualization, consisting of sections of surface rendering of three kinds,
contains a control module and a display module connected with the control module
designed to represent the image data on the surface of a display module formed arranged in a predefined order of the parts of the surface of the imaging components of many sections of surface rendering, and
the control unit includes means for storing the image data, which are multi-color data and are in the plane of the image data logical pixels of the color image components of a set of logical pixel of the second color image,
each logical pixel of the color image is expressed by collecting data of the first group, the second data group and data of the third group, in characterizing the three-dimensional color space, the three normalized color coordinates respectively conditionally "first"conditionally "second" and conditionally "third" linearly independent colors,
the surface of the display module includes a surface rendering of the first group, the surface rendering of the second group and the surface rendering of the third group, and
in a display module for arbitrary (considered as a random element of the set) surface rendering of the first, second or third group, part of the surface of the display module has a function of converting data, respectively, the first, second or third group in the luminous flux, respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group,
characterized in that
the control module has a function of forming data items, one-to-one corresponding to the predefined elements of the management table,
in the display module implemented feature is the display of the above data elements on the surface of the display module, and
mentioned management table describes the breakdown of a two-dimensional array of logical pixels of the color image and the set of surface patches visualization respectively on the field data comprising multiple data regions, and the parts of the surface of the imaging components of many areas surface areas of visualization, and
arbitrary (considered as a random element of the set) the data region is expressed in the form of a square matrix composed of one or multiple logical pixels of the color image are located next to each other in a two-dimensional array of logical pixels of the color image,
the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the scope of the data, pre-defined,
arbitrary (considered as a random element of the set) the area of the surface sections visualization formed from one or more parts of the surface visualization, located next to each other within an imaginary square circumscribed around this area sections of surface rendering,
the parts of the surface visualization do not overlap,
the parts of the surface visualization and cent is s imaginary squares, described around these areas, surface areas of visualization, evenly distributed over the surface of the display module,
the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, pre-defined,
each data region one-to-one corresponds to the area of the surface areas of visualization,
the order in which you placed in relation to each other in the plane of the image data of the geometric centers of the fields of data, one-to-one corresponding areas of the surface areas of visualization, coincides with the order in which located relative to each other on the surface of a display module of the geometric centers of imaginary squares described about these areas, surface areas of visualization,
each logical pixel of the color image that constitutes arbitrary (considered as a random element of the set) of the data area that corresponds to each part of the surface of the visualization included in the field of surface areas of visualization, one-to-one corresponding to the data region, each logical pixel of the color image, which is part of the tyranny of the Noi (considered as a random element of the set) of the data area, corresponds to each portion of the surface rendering, which is part of the field surface areas of visualization, one-to-one corresponding to this data area, the management table contains the elements of the set of elements of the management table and located in one or more rows comprising multiple rows of the table control,
the number of elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is predefined and does not exceed the largest number of data elements, the mapping of which is on the surface of the display module, the display module allows you to start at the same time,
arbitrary (considered as a random element of the set) logical pixel color image included in the one or more areas of data corresponds to one or more elements of the management table,
the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image is equal to the number of surface patches visualization corresponding to this logical pixel of the color image,
element management table, respectively the ith random (considered as a random element of the set) logical pixel of the color image, corresponds to only one surface visualization corresponding to this logical pixel of the color image,
arbitrary (considered as a random element of the set) the surface area of visualization, which is part of the field surface areas of visualization, matches one or more elements of the management table,
the number of elements of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization, is equal to the number of logical pixels of the color image corresponding to the surface area of visualization,
element management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization corresponds to only one logical pixel of the color image corresponding to the surface area of visualization,
the number of surface areas of visualization, the relevant elements of the management table, arbitrary components (considered as a random element of the set) row of the management table is equal to the number of these elements of the management table,
elements of a management table comprising the set of elements of the management table, the composition is given in one or more fields of the management table, components of many fields in the table control,
the elements of control tables, arbitrary components (considered as a random element of the set) field of the management table, comprise one or more rows of a management table comprising a continuous sequence of rows in the driving table,
the number of elements of the management table, arbitrary components (considered as a random element of the set) field of the management table is equal to the number of surface patches visualization, forming the parts of the surface of the imaging components of many areas surface areas of visualization,
the number of fields of the management table is equal to the number of logical pixels of the color image components of an arbitrary (considered as a random element of the set) the data area, and
arbitrary (considered as a random element of the set) field of the management table includes only one member of the management table corresponding to arbitrary (considered as a random element of the set) the surface area of the visualization included in the composition of the parts of the surface visualization;
in the process of providing image data on the surface of a display mo is Ulya
the control module performs the function of forming the data elements consisting in formation at high speed of data elements constituting the multiple data elements, and
the display module performs the function of displaying on the surface of a display module of the data elements that displays at high speed of data elements generated control module, on the surface of the display module, and
each data element of the one-to-one corresponds to the element management table,
data elements that are one-to-one corresponding to the members of the management table, arbitrary components (considered as a random element of the set) line managing table form the data line, one-to-one corresponding to this row of the management table,
the order in which the control unit generates the data elements constituting the data line, one-to-one corresponding to arbitrary (considered as a random element of the set) row of the control table that corresponds to the order in which the elements of the management table, one-to-one corresponding to these data elements are located in this row of the management table,
the order in which the Manager mo is ul forming the data line, components of many rows of data, and the order in which the display module displays the data rows on the surface of the display module correspond to the order in which row of the management table, one-to-one corresponding to these rows of data are in the control table, and
the data elements that make up an arbitrary (considered as a random element of the set) the data line, the display module starts to show on the surface visualization at the same time;
in the process of forming a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the surface area of visualization of the first, second or third group,
the control module reads from the means for storing data of the image data respectively of the first, second and third groups included in the logical pixel of the color image corresponding to this element of the management table, and assigns the data of the first, second or third group this data item;
in the process of display element data, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table (s) is related to the surface area of visualization of the first, the second or third group, on the surface of the display module, the display module performs the function of converting data, respectively, the first, second or third group in the luminous flux, respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group, and
when performing this function, the display module converts the data respectively the first, second or third group contained in this data element, the light flux respectively conditionally "first"conditionally "second" or conditional "third" color directed from this part of the surface rendering of the first, second or third group.

9. The device according to claim 8, characterized in that
surface visualization that make up the surface of the display module, is formed on the surface of the display module multiple rows of surface areas of visualization, and
the spacing of the surfaces visualization in these lines the surfaces visualization equal step location on the surface of a display module of these lines surface areas of visualization, and
surface visualization, forming on the surface of the imaging crannog the module any two adjacent line sections of surface rendering, offset in these lines the surfaces of visualization in relation to each other and thus are in such an order that any part of these two neighboring lines of the surface areas of visualization of three neighboring land surface imaging, bordering each other on the principle of each other, are located on the surface of the display module at the vertices of an imaginary equilateral triangle and include surface rendering of the first group, the surface area of visualization of the second group and the surface area of visualization of the third group.

10. The device according to claim 8, characterized in that
surface visualization that make up the surface of the display module, is formed on the surface of a display module of a two-dimensional matrix surface areas of visualization, and
the spacing of the surfaces of visualization in the lines of this two-dimensional matrix surface areas of visualization equal to the spacing of the surfaces visualization in the columns of this two-dimensional matrix plots of surface rendering.

11. The device according to claim 8, characterized in that the control table describes the partitioning of a two-dimensional array of logical pixels of the color image and many areas of the surface the surface visualization, respectively, on many fields and on many areas surface areas of visualization, wherein a data region on the plane of image data do not overlap,
the number of data regions, one-to-one corresponding areas of the surface areas of visualization, is equal to the highest possible values for these color image and the surface of the display module, and
the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, is equal to the highest possible values for this pre-defined number of fields of data.

12. The device according to claim 8, characterized in that
each logical pixel image color one-to-one corresponds to the address of the logical pixel of the color image, characterizing the location data of the first, second or third group, are part of the logical pixel of the color image on the plane of the image data, and the address where in the means for memorizing the image data are data of the first, second and third groups included in the arbitrary (considered as a random element of the set) logical pixel of the color image is equal to the address of the logical pixel of the color image, the larger n is the offset, respectively, the first, the second and third groups, which are predefined;
each part of the surface rendering one-to-one corresponds to the address of the land surface imaging, characterizing the location of the land surface visualization on the surface of the display module;
the control unit includes means for storing a management table in which elements of a management table arranged in series to each other and comprise a sequence of elements of the management table, and
element address management table, which is the first element in this sequence of elements of control table previously defined,
address arbitrary (considered as a random element of the set) element management table, which is not the first item in this sequence of elements of the management table is equal to the address of the last element in this sequence of elements of the management table, increased by the offset of the fourth group, which is pre-defined, and
the order in which elements are the driving table in a sequence of elements of the management table, determines the order in which the control unit generates the data items, one-to-one with the corresponding elements of the management table;
element management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image contains the address of the logical pixel of the color image, and
the number of memory cells in the means for storing the management table held by this logical address of a pixel of a color image pre-defined, and
the address at which the means for storing the driving table is the logical address of a pixel of the color image is equal to the address of this element of the management table, increased by the offset of the fifth group, which is pre-determined;
element management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization of the first, second or third group, also contains the address of that portion of the surface rendering of the first, second or third group, and
the number of memory cells in the means for storing the management table held by the address portion of the surface rendering of the first, second or third group, pre-defined, and
the address at which the means for storing the driving table is the address of the surface area of visualization of the first, second, is whether the third group, equal to the address of this element of the management table, increased by the offset of the sixth group, which are predefined;
element management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization of the first, second or third group, also contains a field attribute of the first group, which contains, respectively, the first, second or third value of the field attribute of the first group, and
the first value field of the attribute of the first group is a sign of conformity to the surface area of visualization of the first group,
the second field value attribute of the first group is a sign of conformity to the surface area of visualization of the second group,
the third field value attribute of the first group is a sign of compliance with the surface rendering of the third group,
the number of memory cells in the means for storing a management table that occupied the field attribute of the first group, pre-defined, and
the address at which the means for storing a management table is a field attribute of the first group equal to the address of this element of the management table, increased by the offset of the seventh group, which are predefined;
element management table corresponding to the producers who gnomo (considered as a random element of the set) the surface area of visualization of the first, the second or third group, also contains a field attribute of the second group, which contains the first or the second value field of the attribute of the second group, and
the first value field of the attribute of the second group is a sign of a complete row of the management table,
arbitrary (considered as a random element of the set) element management table containing a complete line of the control table, is the last element in the row of the management table,
arbitrary (considered as a random element of the set) element management table, which is the last element in the row of the management table contains a complete row of the management table,
the number of memory cells in the means for storing a management table that occupied the field attribute of the second group, pre-defined, and
the address at which the means for storing a management table is a field attribute of the second group is equal to the address of this element of the management table, increased by the offset of the eighth group, which are predefined;
prior to forming the data item, one-to-one corresponding to an element management table containing the logical address of a pixel of the color image and the field attribute of the first group and are the of emusa the first element in the sequence of the elements of the management table, control module
first by adding the address of this element of the management table and the offset of the fifth group calculates the address at which the means for storing the driving table is the logical address of a pixel of the color image,
then the result of adding the address of this element of the management table and the offset of the seventh group calculates the address at which the means for storing a management table is a field attribute of the first group,
then reads from the means for storing a management table of the logical address of a pixel of the color image and the value of this attribute fields of the first group,
and then it checks the value of the field attribute of the first group on equality grounds of compliance with the surface area of visualization of the first group on equality grounds of compliance with the surface area of visualization of the second group and the equality sign of compliance with the surface rendering of the third group, and
in case of equality of the value of the field attribute of the first group the basis of compliance with the surface area of visualization of the first, second or third group,
in addition to this logical address of a pixel of the color image and displacement respectively of the first, second or third group calculates the address at which the tool DL is memorizing the image data are data, respectively, the first, the second and third groups that comprise the logical pixel of the color image;
prior to forming the data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table containing the logical address of a pixel of the color image and the field attribute of the first group and not the first element in the sequence of the elements of the management table, the control module
first calculates the address of this element of the management table in the result of the addition of the address of the previous element in this sequence of elements of the management table and the offset of the fourth group,
then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address at which the means for storing the driving table is the logical address of a pixel of the color image,
then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address at which the means for storing a management table is a field attribute of the first group,
then reads from the means for storing a management table of the logical address of a pixel of the color image and the value of this on the I attribute of the first group,
and then it checks the value of the field attribute of the first group on equality grounds of compliance with the surface area of visualization of the first group on equality grounds of compliance with the surface area of visualization of the second group and the equality sign of compliance with the surface rendering of the third group and
in case of equality of the value of the field attribute of the first group the basis of compliance with the surface area of visualization of the first, second or third group,
in addition to this logical address of a pixel of the color image and displacement respectively of the first, second or third group calculates the address at which the means for storing data of the image data are respectively first, second or third group, are included in this logical pixel of the color image;
after formation of the element data, one-to-one corresponding element of the control table that contains the address of the portion of the surface rendering of the first, second or third group and the field attribute of the second group, the control module
first by adding the address of this element of the management table and the offset of the sixth group calculates the address at which the means for storing the driving table is the address of the portion of the surface rendering first is th, the second or third group,
then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address at which the means for storing a management table is a field attribute of the second group,
then reads from the means for storing a management table the address portion of the surface rendering of the first, second or third group and the value of this attribute fields of the second group,
and then transmits to the display module, the address portion of the surface rendering of the first, second or third group, the value field of the attribute of the second group and this data item;
the display module includes means for storing items of data sent to the display module, control module, and a means for storing one field value attribute of the second group is transmitted to the display module control module with arbitrary (considered as a random element of the set) data item;
before displaying the data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table containing the address of the portion of the surface rendering of the first, second or third group and the field attribute of the second group, on the surface visualization EC the data module screen module
first receives from the control module, the address portion of the surface rendering of the first, second or third group, the value of this attribute fields of the second group and this data item
then stores this data element in the means for storing data items to the address portion of the surface rendering of the first, second or third group, and stores this value field of the attribute of the second group in the means for memorizing the value of the field attribute of the second group,
and then periodically at high speed checks the value of the field attribute of the second group stored in the means for memorizing the value of the field attribute of the second group, on the equality of the terminator line management table to obtain a positive result of this test.

13. The device for implementing the method of visualization of raster data of the color image, characterized by the characteristics of claim 8, characterized in that
in the control module in accordance with a predefined algorithm to calculate data of the fourth group, in characterizing the three-dimensional color space of any of the three normalized color coordinates of the achromatic color based on the data of the first, second and third groups has a function to calculate the data of the fourth group;
the surface of the display is about the module also includes a surface rendering of the fourth group, and
in a display module for arbitrary (considered as a random element of the set) surface rendering of the fourth group, part of the surface of the display module has a function of converting data of the fourth group in luminous flux achromatic color cast from this part of the surface rendering of the fourth group;
in the process of forming a data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the portion of the surface rendering of the fourth group, the control module
first reads from the means for storing data of the image data of the first, second and third groups that comprise the logical pixel of the color image corresponding to this element of the management table, and on the basis of these read out data of the first, second and third groups calculates the data of the fourth group,
and then assigns these calculated data of the fourth group this data item, and
in the process of calculating the data of the fourth group on the basis of these read out data of the first, second and third groups and in accordance with the aforementioned algorithm for calculating the data of the fourth group managing module is
first compares between the read data of the first, second and third groups,
and then sets the data value of the fourth group is equal to the value of these read data of the first, second or third group, not exceeding the values of these read data, respectively the second, third or first group and not exceeding the values of these read data, respectively, the third, first or second group;
in the process of display element data, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table corresponding to the portion of the surface rendering of the fourth group, on the surface of the display module, the display module
performs the function of converting data of the fourth group in luminous flux achromatic color cast from this part of the surface rendering of the fourth group, and
when performing this function, the display module converts the data of the fourth group contained in this data element, the luminous flux achromatic color cast from this part of the surface rendering of the fourth group.

14. The device according to item 13, wherein
surface visualization that make up the surface of the display modes is La, form on the surface of a display module of a two-dimensional matrix surface areas of visualization, and
the spacing of the surfaces of visualization in the lines of this two-dimensional matrix surface areas of visualization equal to the spacing of the surfaces visualization in the columns of this two-dimensional matrix plots of surface rendering.

15. The device according to item 13, wherein
control table describes the partitioning of a two-dimensional array of logical pixels of the color image and many surface areas of visualization, respectively, on many fields and on many areas surface areas of visualization, in which a data region on the plane of image data do not overlap,
the number of data regions, one-to-one corresponding areas of the surface areas of visualization, is equal to the highest possible values for these color image and the surface of the display module, and
the number of surface patches visualization, arbitrary components (considered as a random element of the set) the area of the surface areas of visualization, is equal to the highest possible values for this pre-defined number of fields of data.

16. The device according to item 13, trichomania fact, what
each logical pixel image color one-to-one corresponds to the address of the logical pixel of the color image, characterizing the location data of the first, second or third group, are part of the logical pixel of the color image on the plane of the image data, and
the address where in the means for memorizing the image data are data of the first, second and third groups included in the arbitrary (considered as a random element of the set) logical pixel of the color image is equal to the address of the logical pixel of the color image is increased by the offset respectively the first, second or third group, which are predefined;
each part of the surface rendering one-to-one corresponds to the address of the land surface imaging, characterizing the location of the land surface visualization on the surface of the display module;
the control unit includes means for storing a management table in which elements of a management table arranged in series to each other and comprise a sequence of elements of the management table, and
element address management table, which is Erwin element in this sequence of elements of the management table, pre-defined,
address arbitrary (considered as a random element of the set) element management table, which is not the first item in this sequence of elements of the management table is equal to the address of the last element in this sequence of elements of the management table, increased by the offset of the fourth group, which is pre-defined, and
the order in which elements are the driving table in a sequence of elements of the management table, determines the order in which the control unit generates the data items, one-to-one corresponding to these elements of the management table;
element management table corresponding to arbitrary (considered as a random element of the set) logical pixel of the color image contains the address of the logical pixel of the color image, and
the number of memory cells in the means for storing the management table held by this logical address of a pixel of a color image pre-defined, and
the address at which the means for storing the driving table is the logical address of a pixel of the color image is equal to the address of this element of the management table, increased by the offset fifth g is uppy, which are predefined;
element management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization of the first, second, third or fourth group, also contains the address of that portion of the surface rendering of the first, second, third or fourth group, and
the number of memory cells in the means for storing the management table held by the address portion of the surface rendering of the first, second, third or fourth group, pre-defined, and
the address at which the means for storing the driving table is the address of the portion of the surface rendering of the first, second, third or fourth group, equal to the address of this element of the management table, increased by the offset of the sixth group, which are predefined;
element management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization of the first, second, third or fourth group, also contains a field attribute of the first group, which contains, respectively, the first, second, third or fourth field value attribute of the first group, and
the first value field of the attribute of the first group is a sign of conformity teaching is woven surface rendering of the first group,
the second field value attribute of the first group is a sign of conformity to the surface area of visualization of the second group,
the third field value attribute of the first group is a sign of compliance with the surface rendering of the third group,
the fourth field value attribute of the first group is a sign of compliance with the surface rendering of the fourth group,
the number of memory cells in the means for storing a management table that occupied the field attribute of the first group, pre-defined, and
the address at which the means for storing a management table is a field attribute of the first group equal to the address of this element of the management table, increased by the offset of the seventh group, which are predefined;
element management table corresponding to arbitrary (considered as a random element of the set) the surface area of visualization of the first, second, third or fourth group, also contains a field attribute of the second group, which contains the first or the second value field of the attribute of the second group, and
the first value field of the attribute of the second group is a sign of a complete row of the management table,
arbitrary (considered as a random element of the set) element is sending table, contains the complete line of the control table, is the last element in the row of the management table,
arbitrary (considered as a random element of the set) element management table, which is the last element in the row of the management table contains a complete row of the management table,
the number of memory cells in the means for storing a management table that occupied the field attribute of the second group, pre-defined, and
the address at which the means for storing a management table is a field attribute of the second group is equal to the address of this element of the management table, increased by the offset of the eighth group, which are predefined;
prior to forming the data item, one-to-one corresponding to an element management table containing the logical address of a pixel of the color image and the field attribute of the first group and which is the first element in the sequence of the elements of the management table, the control module
first by adding the address of this element of the management table and the offset of the fifth group calculates the address at which the means for storing the driving table is the logical address of a pixel of the color image,
then the SL is the supply address this element of the management table and the offset of the seventh group calculates the address which means for storing a management table is a field attribute of the first group,
then reads from the means for storing a management table of the logical address of a pixel of the color image and the value of this attribute fields of the first group,
then it checks the value of the field attribute of the first group on equality grounds of compliance with the surface area of visualization of the first group on equality grounds of compliance with the surface area of visualization of the second group, on equality grounds of compliance with the surface rendering of the third group and the equality sign of compliance with the surface rendering of the fourth group,
and then when the equality of the value of the field attribute of the first group the basis of compliance with the surface area of visualization of the first, second or third group,
in addition to this logical address of a pixel of the color image and displacement respectively of the first, second or third group calculates the address at which the means for storing data of the image data are respectively first, second or third group, are included in this logical pixel of the color image, and,
in case of equality of the value of the field attribute of the first group the basis of compliance with the surface area of the visualization is the AI of the fourth group,
in addition to this logical address of a pixel of the color image and the offset of the first group calculates the address where in the means for memorizing the image data are data of the first group, are included in this logical pixel of the color image,
in addition to this logical address of a pixel of the color image and the offset of the second group calculates the address where in the means for memorizing the image data are data of the second group, are included in this logical pixel of the color image, and
in addition to this logical address of a pixel of the color image and the offset of the third group calculates the address where in the means for memorizing the image data are data of the third group, are included in this logical pixel of the color image;
prior to forming the data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table containing the logical address of a pixel of the color image and the field attribute of the first group, and that is not the first element in the sequence of the elements of the management table, the control module
first calculates the address of this element of the management table in the results of the e adding the address of the previous element in this sequence of elements of the management table and the offset of the fourth group,
then the result of adding the calculated address this element of the management table and the offset of the fifth group calculates the address at which the means for storing the driving table is the logical address of a pixel of the color image,
then the result of adding the calculated address this element of the management table and the offset of the seventh group calculates the address at which the means for storing a management table is a field attribute of the first group,
then reads from the means for storing a management table of the logical address of a pixel of the color image and the value of this attribute fields of the first group,
then it checks the value of the field attribute of the first group on equality grounds of compliance with the surface area of visualization of the first group on equality grounds of compliance with the surface area of visualization of the second group, on equality grounds of compliance with the surface rendering of the third group and the equality sign of compliance with the surface rendering of the fourth group,
and then when the equality of the value of the field attribute of the first group the basis of compliance with the surface area of visualization of the first, second or third group,
in addition to this logical address of a pixel of the color image and the offset is of respectively the first, the second or third group calculates the address at which the means for storing data of the image data are respectively first, second or third group, are included in this logical pixel of the color image, and
in case of equality of the value of the field attribute of the first group to sign the compliance portion of the surface rendering of the fourth group,
in addition to this logical address of a pixel of the color image and the offset of the first group calculates the address where in the means for memorizing the image data are data of the first group, are included in this logical pixel of the color image,
in addition to this logical address of a pixel of the color image and the offset of the second group calculates the address where in the means for memorizing the image data are data of the second group, are included in this logical pixel of the color image, and
in addition to this logical address of a pixel of the color image and the offset of the third group calculates the address where in the means for memorizing the image data are data of the third group, are included in this logical pixel of the color image;
after formation of the element data, one-to-one corresponding to e is the element management table, contains the address of the portion of the surface rendering of the first, second, third or fourth group and the field attribute of the second group, the control module
first by adding the address of this element of the management table and the offset of the sixth group calculates the address at which the means for storing the driving table is the address of the portion of the surface rendering of the first, second, third or fourth group,
then the result of adding the address of this element of the management table and the offset of the eighth group calculates the address at which the means for storing a management table is a field attribute of the second group,
then reads from the means for storing a management table the address portion of the surface rendering of the first, second, third or fourth group and the value of this attribute fields of the second group,
and then transmits to the display module, the address portion of the surface rendering of the first, second, third or fourth group, the value of the field attribute of the second group and this data item;
the display module includes means for storing items of data sent to the display module, control module, and a means for storing one field value attribute of the second group is transmitted to the display module control module together with proizvolnym (considered as a random element of the set) data item;
before displaying the data item, one-to-one corresponding to arbitrary (considered as a random element of the set) element management table containing the address of the portion of the surface rendering of the first, second, third or fourth group and the field attribute of the second group, on the surface of the display module, the display module
first receives from the control module, the address portion of the surface rendering of the first, second, third or fourth group, the value of this attribute fields of the second group and this data item
then remembers that the value of the field attribute of the second group in the means for memorizing the value of the field attribute of the second group and stores this data element in the means for storing data items to the address portion of the surface rendering of the first, second, third or fourth group,
and then periodically at high speed checks the value of the field attribute of the second group stored in the means for memorizing the value of the field attribute of the second group, on the equality of the terminator line management table to obtain a positive result of this test.



 

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1 cl, 1 dwg

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12 cl, 16 dwg

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5 cl, 19 dwg

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The invention relates to the formation of a digital video signal

The invention relates to the formation of a digital video signal

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